2019-2020 Instructor-Led Course Catalog

High-Quality, Authoritative, and Credible Technical “ASHRAE training has far exceeded my expectations. It provides a great Training overview of engineering concepts and fundamentals, systems design, commonly used HVAC equipment, control, codes, and much more. The content is provided in a very interactive manner, where you have the opportunity to ask questions and discuss different industry practices. I highly recommend ASHRAE training to anyone and everyone.”

Caroline M. (Sales Engineer) Austin, TX

“This training has broadening my “This training was great and really has knowledge on HVAC&R design accelerated my understanding of HVAC and applications. I have better design principles. The instructors understanding of the use of are able to pull from their extensive fundamentals and psychrometric in experience and knowledge to give design, operation, maintenance, and tips and examples that are useful and applications.” relevant. Great experience overall!”

Ogunsuyi R. - Lagos, Nigeria Ariel F. (Toronto, ON)

www.ashrae.org/ali 1-800-527-4723 ASHRAE Learning Institute Learning for the Future

The ASHRAE Learning Institute (ALI) offers a variety of full-day professional development seminars and half-day short courses to help you stay in the forefront of HVAC&R technology. ALI offers authoritative technical instructor-led training presented at

• ASHRAE Annual and Winter • Companies (upon request) Conferences • Other industry meetings/conferences • ASHRAE online course series • ASHRAE Chapters (upon request)

ASHRAE is an approved Continuing Education provider for the American Institute of Architects (AIA) and a U.S. Green Building Council (USGBC) Education Partner. Continuing Education hours earned from ASHRAE courses and seminars may be applied toward renewal of state-licensed professionals and maintenance of LEED® professional credentials.

Please check with your specific state authority for more information about continuing education requirements.

American Institute of Architects (AIA) Green Building Certification Institute (GBCI)

ASHRAE Professional Certification

Over 3000 certifications earned to date. Validation. Recognition. Pride. Advance Your Career Today

Visit www.ashrae.org/certification to learn more about these seven programs:

• Building Commissioning Professional (BCxP) • Building Energy Assessment Professional (BEAP) • Building Energy Modeling Professional (BEMP) • Certified HVAC Designer (CHD) • High-Performance Building Design Professional (HBDP) • Healthcare Facility Design Professional (HFDP) • Operations and Performance Management Professional (OPMP) www.ashrae.org/certification Professional Format Development Course Level Hours Commissioning Intermediate and ASHRAE Guideline 0: The Commissioning Process Half-Day Course 3 Experienced Intermediate and Commissioning Process and Standard 202-2013 Half-Day Course 3 Experienced New/Transitioning and Commissioning Process in New and Existing Buildings Full-Day Seminar 6 Intermediate New/Transitioning and Introduction to Buildings Enclosure Commissioning Full-Day Seminar 6 Intermediate Energy Efficiency Intermediate and Advanced Designs for Net Zero Buildings Half-Day Course 3 Experienced Intermediate and Advanced High-Performance Building Design Half-Day Course 3 Experienced Intermediate and Basics of Combined Heat and Power Half-Day Course 3 Experienced

Basics of High-Performance Building Design Half-Day Course 3 New/Transitioning

Building Demand Response and the Coming Smart Grid Half-Day Course 3 Intermediate

Cogeneration from the Basics through Operation Full-Day Seminar 6 Intermediate

Combined Heat and Power: Creating Efficiency through Design and Intermediate and Half-Day Course 3 Operations Experienced Intermediate and Commercial Building Energy Audits Full-Day Seminar 6 Experienced Intermediate and Commercial Building Energy Audits (MENA) Full-Day Seminar 6 Experienced Intermediate and Designing High-Performance Healthcare HVAC (MENA) Full-Day Seminar 6 Experienced New/Transitioning and Designing Toward Net Zero Energy Commercial Buildings Half-Day Course 3 Intermediate Intermediate and District Cooling and Heating Systems: Central Plants Half-Day Course 3 Experienced

Effective Energy Management in New and Existing Buildings Full-Day Seminar 6 Intermediate

Effective Energy Management in New and Existing Buildings (MENA) Full-Day Seminar 6 Intermediate

Emerging Trends and Sustainable Design in Refrigeration and Cold Full-Day Seminar 6 Intermediate Chain (MENA)

Energy Efficiency in Data Centers Half-Day Course 3 New/Transitioning

Intermediate and Energy Management Best Practices Half-Day Course 3 Experienced Intermediate and Energy Modeling Best Practices and Applications Full-Day Seminar 6 Experienced Intermediate and Evaluation Methods for High-Performance Green Buildings Half-Day Course 3 Experienced Intermediate and High-Performance Building Design: Applications and Future Trends Half-Day Course 3 Experienced

How Smart, Efficient, Sustainable Systems Lead to Improved Intermediate and Half-Day Course 3 Resilience Experienced

Visit www.ashrae.org/education for more details and to register. 3 Seminars/Courses subject to change without notice. IT Equipment Design Evolution and Data Center Design Operation Intermediate and Half-Day Course 3 Experienced Optimization

Intermediate and Operations and Maintenance of High-Performance Buildings Full-Day Seminar 6 Experienced Intermediate and Thermal Energy Storage Systems for Air Conditioning Half-Day Course 3 Experienced Environmental Quality New/Transitioning and Avoiding IAQ Problems Half-Day Course 3 Intermediate Intermediate and Humidity Control I: Design Tips and Traps Half-Day Course 3 Experienced Intermediate and Humidity Control II: Real World Problems and Solutions Half-Day Course 3 Experienced

Humidity Control I and II: Tips for HVAC Design and Practical Intermediate and Full-Day Seminar 6 Solutions to Existing Problems Experienced

New/Transitioning and IAQ Best Practices for Design, Construction, and Commissioning Half-Day Course 3 Intermediate Intermediate and Introduction to Ultraviolet Germicidal Irradiation (UVGI) Systems Half-Day Course 3 Experienced Intermediate and Optimizing Indoor Environment: Increasing Building Value Full-Day Course 3 Experienced HVAC&R Applications

Air-to-Air Energy Recovery Applications: Best Practices Half-Day Course 3 Intermediate

Air-to-Air Energy Recovery Fundamentals Half-Day Course 3 Intermediate

Air-to-Air Heat Recovery Fundamentals and Applications (MENA) Full-Day Course 6 New/Transitioning

Design of Affordable and Efficient Ground-Source Heat Pump Intermediate and Half-Day Course 3 Systems Experienced Designing and Operating High-Performing Healthcare HVAC Intermediate and Half-Day Course 3 Systems Experienced

Designing HVAC Systems to Control Noise and Vibration Full-Day Course 6 Intermediate

Intermediate and Designing Tall, Supertall, and Megatall Building Systems Half-Day Course 3 Experienced Effective Presentation for Positive Results Half-Day Course 3 New/Transitioning Intermediate and Healthcare Facilities: Best Practices for HVAC Design and Operation Full-Day Seminar 6 Experienced Intermediate and Integrated Building Design Full-Day Seminar 6 Experienced

Introduction to BACnet® Half-Day Course 3 New/Transitioning

Intermediate and Laboratory Design: The Basics and Beyond Half-Day Course 3 Experienced Intermediate and Laboratory Exhaust Stacks: Safe and Energy-Efficient Design Half-Day Course 3 Experienced Intermediate and Latest in High-Performance Dedicated Outdoor Air Systems (DOAS) Half-Day Course 3 Experienced New ASHRAE-Classified Refrigerants to Meet Society’s Changing New/Transitioning and Half-Day Course 3 Needs Intermediate Intermediate and New Developments in Lower GWP Refrigerants (MENA) Full-Day Seminar 6 Experienced New/Transitioning and Solar PV and Thermal Systems Analysis and Design Half-Day Course 3 Intermediate 4 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. Intermediate and The Future of Refrigerants: Challenges and Opportunities (MENA) Full-Day Seminar 6 Experienced New/Transitioning and Understanding and Designing Chilled-Beam Systems Half-Day Course 3 Intermediate Intermediate and Variable Refrigerant Flow Systems Design and Applications Half-Day Course 3 Experienced Intermediate and Variable Refrigerant Flow Systems: Design and Applications (MENA) Full-Day Seminar 6 Experienced

Variable Refrigerant Flow Systems: Technology Introduction Half-Day Course 3 New/Transitioning

HVAC Design and Operation Consulting Engineering Essentials Full-Day Training 6 New/Transitioning HVAC Design: Level I—Essentials 3-Day Training 18 New/Transitioning

HVAC Design I—Essentials (MENA) 3-Day Training 18 New/Transitioning

HVAC Design: Level II – Applications 2-Day Training 12 Intermediate HVAC Design: Level II—Applications (MENA) 2-Day Training 12 Intermediate Intermediate and Improving Existing Building Operation (MENA) 2-Day Training 12 Expereinced Standards and Guidelines Applications of Standard 62.1-2010: Multiple Spaces (Equations and Intermediate and Half-Day Course 3 Spreadsheets) Experienced ASHRAE 90.1 Code Compliance and Plan Review for Authorities New/Transitioning and Full-Day Seminar 6 Having Jurisdiction Intermediate Choosing the Right Energy Code for your Project: IECC 2018 or New/Transitioning and Full-Day Seminar 6 ASHRAE 90.1-2016 Intermediate New/Transitioning and Complying with Standard 90.1-2013 Full-Day Seminar 6 Intermediate Intermediate and Complying with Standard 90.1-2016 Full-Day Seminar 6 Experienced Complying with Standard 90.1-2013: Envelope/Lighting Half-Day Course 3 Intermediate Complying with Standard 90.1-2016: Envelope/Lighting Half-Day Course 3 Intermediate Complying with Standard 90.1-2013: HVAC/Mechanical Half-Day Course 3 Intermediate Complying with Standard 90.1-2016: HVAC/Mechanical Half-Day Course 3 Intermediate Complying with the Requirements of Standard 62.1-2016 Full-Day Seminar 6 Intermediate Designing for IAQ: Complying with the Requirements of Standard Full-Day Seminar 6 Intermediate 62.1 (MENA) Intermediate and Exceeding Standard 90.1-2013 to Meet LEED® Requirements Full-Day Seminar 6 Experienced Intermediate and Exceeding Standard 90.1-2013 to Meet LEED® Requirements Half-Day Course 3 Experienced New/Transitioning and Fundamentals and Applications of Standard 55 Half-Day Course 3 Intermediate New/Transitioning and Fundamental Requirements of Standard 62.1-2013 Half-Day Course 3 Intermediate New/Transitioning and Fundamental Requirements of Standard 62.1-2016 Half-Day Course 3 Intermediate New/Transitioning and Guideline 36: Best in Class HVAC Control Sequences Half-Day Course 3 Intermediate Intermediate and IgCC and ASHRAE Standard 189.1 Technical Provisions Half-Day Course 3 Experienced

Save 30% Complying with Standard 90.1-2013 Half-Day Course 3 Intermediate

Visit www.ashrae.org/education for more details and to register. 5 Seminars/Courses subject to change without notice. Save Over 35% Using Appendix G of ASHRAE Standard 90.1-2016 Half-Day Course 3 Intermediate

Standard 90.1: HVAC/Mechanical Design and Appendix G (MENA) Full-Day Seminar 6 Intermediate

Successfully Managing the Risk of Legionellosis Using ASHRAE Half-Day Course 3 Intermediate Standard 188 Understanding Standard 189.1-2014 for High-Performance New/Transitioning and Half-Day Course 3 Green Buildings Intermediate Understanding Standard 189.1-2014 for High-Performance Green New/Transitioning and Full-Day Seminar 6 Buildings (MENA) Intermediate

6 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. COMMISSIONING Instructors: Fiona Aldous, Member ASHRAE; David Altenhofen, AIA; Jay Enck, Member ASHRAE, HBDP, CPMP, BEAP, LEED® AP; and Rob ASHRAE Guideline 0: The Commissioning Process Kistler, AIA, Member ASHRAE This course is ideal for building owners, facility managers, design engineers, building designers, architects, equipment manufacturers, ENERGY EFFICIENCY and others interested in the commissioning process as defined by ASHRAE Guideline 0. The course focuses on commissioning Advanced Designs for Net Zero Buildings objectives, activities, and deliverables. This is an entry-level course that This advanced course is for professional engineers and architects who will provide an understanding of the ASHRAE commissioning process want to expand their practice to include the design, construction, and for new construction. The course may be complimented by attending operation of zero energy (net zero) buildings. The first principle of zero a more advanced course (such as ASHRAE’s full-day HVAC and/or energy design is to make the building as energy efficient as possible. enclosure commissioning course). On-site renewable energy systems will then be added to achieve these Instructor: Walter Grondzik, P.E., Fellow/Life Member ASHRAE, efficiency goals. If adequate on-site zero energy is not feasible, then LEED® AP options for off-site renewable energy should be explored. The test for zero energy is at the energy meter, so proper commissioning and Commissioning Process and Standard 202-2013 operator training are critical to success. The zero energy principles Much confusion and misinterpretation exists today about the outlined above will be presented with case studies and examples commissioning process. To alleviate this situation, this introductory- showing how other design professionals have met the zero energy goal. level course describes the fundamentals of the code-language Instructors: Peter Simmonds, Ph.D., Fellow ASHRAE; and Charles process of the ASHRAE Standard 202-2013, Commissioning Eley, P.E., AIA, CEM, Member ASHRAE, BEMP, LEED® AP Process for Buildings and Systems. The course focuses on the ASHRAE commissioning process intent, deliverables and activities. Advanced High-Performance Building Design Standard 202 was written as a code-intended document that presents Based on ASHRAE Standards 90.1 and 189.1, this course explores minimum acceptable characteristics for the practice of commissioning. the integrated process applications essential for delivering a High- This course complements ASHRAE’s Guideline 0-2013 course, Performance Green Building. Covering all phases of a building life, which describes the characteristics and expectations of an ideal from concept to design, construction, operation and removal, and using commissioning process. The course is suitable for building owners, specific case studies, the course will help the student integrate their facilities managers, design engineers, building designers, architects, expertise into the green building delivery process and go beyond the and equipment manufacturers. minimum requirements of these standards. Course content is suitable Instructor: Walter Grondzik, P.E., Fellow/Life Member ASHRAE, for architects and engineers. This course should motivate qualified LEED® AP attendees to register for the ASHRAE High-Performance Design Professional Certification. Commissioning Process in New and Existing Buildings Instructor: Jeff Ross-Bain, P.E., Member ASHRAE, BEMP, LEED® AP This introductory seminar focuses on how the building commissioning process can be applied cost-effectively to new construction and Basics of Combined Heat and Power to existing facilities, with a strong emphasis on existing facilities Combined heat and power (CHP) is an efficient, clean, and reliable applications. Learn the fundamentals of the commissioning process approach to generating power and energy from a single fuel source. through each step of a new construction project, from predesign to CHP is one of the most efficient ways to burn fuel since little energy is occupancy and operations. The seminar will also discuss how the lost as waste heat. This course focuses on the fuel savings, emissions application of the commissioning process in existing facilities differs reduction, and decentralization of energy and power supply. The basic from new construction. Benefits of commissioning and how the CHP terms and definitions, rating parameters, and energy conversion process can improve the built environment, reduce environmental systems are discussed. The focus of this course is to understand impacts through responsible resource utilization, improve the quality thermal design for CHP systems and the types of technology that of design and construction, and raise the professional reputation of exists. the entire commissioning team will be covered. Take away compelling Instructor: Lucas B. Hyman, P.E., Member ASHRAE, LEED® AP information and case studies that demonstrates the value of investing in the commissioning process. Basics of High-Performance Building Design Instructor: Richard Casault, P.E., Member ASHRAE This course focuses on the basic application of relevant ASHRAE resources, such as ASHRAE Standards 90.1, 55, 62.1, 189.1, and the Introduction to Buildings Enclosure Commissioning ASHRAE GreenGuide, to achieve high-performance building design. (Co-sponsored by Building Enclosure Commissioning Collaborative) The course explains the differences in purpose and requirements This seminar introduces the Building Enclosure Commissioning between these various standards and provides recommendations (BECx) process by outlining key quality based activities that on selection of what requirements to adopt into a building project, achieve a successful building enclosure. The seminar will include assuming it is not under the jurisdiction of ASHRAE Standard 189.1 overviews on such design phase BECx activities as developing the but the design team still wanted to achieve a reasonable degree of high Owner’s Project Requirements, the BECx plan, and critical building performance building design. Course content should be suitable for science and architectural issues to address in the design review architects and engineers. and specifications, and construction phase BECx activities such as Instructor: Tom Lawrence, Ph.D., P.E., Member ASHRAE, LEED® AP construction observation and performance testing. The seminar will aid in understanding how BECx contributes towards commissioning goals and requirements and LEED®.

7 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. Building Demand Response and the Coming Smart Grid Designing High-Performance Healthcare HVAC (MENA) This course presents applications of new technologies and design This course provides a discussion of fundamentals of system design concepts that are leading the way to how buildings and their systems for healthcare facilities, design considerations, basic methodology of will interact with a coming smart electrical grid. The primary focus HVAC design, psychrometrics, energy, and sustainability goals of high- is on demand response measures and programs, although smart performance healthcare facilities. In addition, this course will cover buildings and their new system concepts are also included. Finally, the definitions of the key elements of high-performance in healthcare, course summarizes the future driving trends toward high-performance control sequences and set points, and energy conservation strategies buildings across the globe. and relationships to temperature/relative humidity requirements. Instructor: Tom Lawrence, Ph.D., P.E., Member ASHRAE, LEED® AP Instructor: Hesham Safwat, Ph.D., Member ASHRAE

Cogeneration from the Basics through Operation Designing Toward Net Zero Energy Commercial Buildings This combined heat and power (CHP) survey course provides a The course provides application knowledge of the design and broad overview of cogeneration systems from concepts, to improving operating principles for energy-efficient buildings and available operational performance and efficiencies. The course includes a technologies and systems to achieve net zero energy building design. detailed discussion of different prime movers, appropriate applications, Building design strategies; review of current policy and regulation, and the use of thermal equipment. Conducting a CHP feasibility study, energy, environmental and economic assessment of building’s the engineering design process (including basic CHP system design), performance; energy efficiency in HVAC, lighting and appliances; and required permitting efforts, and construction efforts are also covered. on-site renewable energy sources are topics covered. Instructor: Lucas B. Hyman, P.E., Member ASHRAE, LEED® AP Instructors: Dunstan Macauley, P.E., Member ASHRAE, HBDP, LEED® AP; and Frank Mills, C.Eng., Member ASHRAE Combined Heat and Power: Creating Efficiency through Design and Operations District Cooling and Heating Systems: Central Plants The successful implementation and operation of a cogeneration Design principles for an efficient, reliable district cooling/heating plant plant is the focus of this course. The course progresses from design that serves multi-building facilities are described and demonstrated. through construction and operations and concludes with three case The course addresses each component of equipment and the studies. The design section includes key issues that affect equipment relationship with other equipment within the plant. Types of equipment sizes and selections, as well as the effects of those selections on plant and the choices available within a type, such as chillers, will be performance and heat recovery. The construction section provides an reviewed and the criteria for selection will be a part of the course. overview of the key steps in a project’s construction phase that differ Included is a short discussion of special applications such as thermal from more typical central plant or general construction projects. The storage, combined heat and power, and deep lake water cooling. operations section shows the methods that should be implemented Instructor: William Bahnfleth, Ph.D., P.E., Presidential/Fellow Member to prolong equipment life and promote operational efficiency. Each ASHRAE case study provides background information for the campus and the corresponding results of the combined heat and power plant Effective Energy Management in New and Existing Buildings installation. Buildings use 40% of U.S. energy, of which one-third can be cost Instructor: Lucas B. Hyman, P.E., Member ASHRAE, LEED® AP effectively saved by using energy management—an orderly process in which managers use resources at their disposal to accomplish Commercial Building Energy Audits clear, energy-saving objectives. Sustained energy management is the This seminar provides guidance on how to perform commercial quickest, cheapest, cleanest way to expand our world’s energy supplies building energy audits. Best practices and other information relevant and reduce greenhouse gas emissions. This seminar weaves together for building owners, managers, and government entities are covered. energy management principles of the ASHRAE Handbook—HVAC The seminar includes a summary of materials essential for performing Applications, ENERGY STAR® guidelines, and the new ASHRAE/ ASHRAE Level 1, 2, and 3 audits, time-saving tips for every auditor, IES Standard 100-2018, Energy Efficiency in Existing Buildings. how to hire an auditor, what to ask for in a comprehensive audit report, Practical experiences of successful energy managers are presented. and how to build a successful energy efficiency retrofit team. Numerous case studies are discussed, including a hospital, high-rise Instructor: Jim Kelsey, P.E., Member ASHRAE, BEAP, LEED® AP building, bank, and convention center. Together, these successful examples demonstrate how to take advantage of the ENERGY STAR® Commercial Building Energy Audits (MENA) Portfolio Manager for documented performance tracking and national This course covers the information needed to perform commercial recognition as an ENERGY STAR. building energy audits. Best practices and other information relevant Instructor: Richard Pearson, P.E., Fellow/Life Member ASHRAE for building owners, managers, and government entities will be discussed. The seminar includes a summary of materials essential for Effective Energy Management in New and Existing Buildings performing Level 1, 2, and 3 audits, time-saving tips for every auditor, (MENA) how to hire an auditor, what to ask for in a comprehensive audit report, This course offers techniques for the adoption of energy optimization and how to build a successful energy efficiency retrofit team. This and the introduction of specialized energy-saving systems in the course has been customized for the Middle East by instructors well Middle East. The training weaves together energy management versed in the concerns for professionals in the region. principles found in ASHRAE Handbook—HVAC Applications, U.S. Instructor: Hassan Younes, Member ASHRAE, BEAP, BEMP, HBDP, ENERGY STAR® guidelines, and ASHRAE/IES Standard 100- CPMP, HFDP, OPMP 2018, Energy Efficiency in Existing Buildings, a standard used internationally to guide organizations in reducing overall energy costs by providing procedures and programs essential for energy efficiency, maintenance, management, and monitoring. Visit www.ashrae.org/education for more details and to register. 8 Seminars/Courses subject to change without notice. The course provides numerous how-to solutions from successful Efficiency in Existing Buildings. The practical experiences of successful energy managers who achieved a reduction in energy consumption energy managers are presented. Numerous case studies are by implementing sustainable energy technologies. These solutions discussed including a hospital, high-rise building, bank, and convention demonstrate how to take advantage of the ENERGY STAR® Portfolio center. Together, these successful examples demonstrate how to take Manager for documented performance tracking and recognition as an advantage of the ENERGY STAR Portfolio Manager for documented ENERGY STAR in a hospital, high-rise building, bank, and a convention performance tracking and national recognition as an ENERGY STAR. center. Among other course features are interactive exercises that Instructor: Richard Pearson, P.E., Fellow/Life Member ASHRAE uses data loggers to collect data during the course to demonstrate real-time logging of CO2, light, temperature, and relative humidity in the Energy Modeling Best Practices and Applications classroom, as well as the best ways to use data-logging instruments. (co-sponsored with IBPSA) Instructors: Samir Traboulsi, Ph.D., P.Eng., Fellow Life Member This seminar covers the fundamentals of building energy modeling ASHRAE; and Hassan Younes, Member ASHRAE, BEAP, BEMP, and explains how to use modeling to guide design decisions, with an HBDP, CPMP, HFDP, OPMP emphasis on HVAC. Integrating modeling into the design process from the programming stage through post-occupancy and measurements Emerging Trends and Sustainable Design in Refrigeration and verification will be discussed. The seminar explains modeling and Cold Chain (MENA) principles and provides modeling tips related to the building envelope, Refrigeration and the cold chain are part of a growing, worldwide plug loads, lighting systems, and HVAC systems. Concluding with industry. There is a need for facilities to be designed with energy- guidance on model calibration and the use of energy models for efficient and sustainable technologies to ensure proper storage while measurement and verification, this seminar also includes case studies minimizing harm to the environment. This course provides insight into and links to valuable modeling resources. the fields of refrigeration and the cold chain, including the newest Instructors: Drury Crawley, Ph.D., AIA, Fellow ASHRAE, BEMP; trends and the sustainable aspects of design. First, the course will Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP; James look at the basics of refrigeration, as well as types of refrigerants and Dirkes, P.E., Member ASHRAE, BEMP, LEED® AP; David Eldridge, P.E., their use. Industry trends related to topics like thermal insulation, low- Member ASHRAE, BEMP, BEAP, HBDP, LEED® AP; Erik Kolderup, charge ammonia systems, material handling, and automation will be P.E., Member ASHRAE, BEMP, LEED® AP; Annie Marston, Ph.D., discussed. Next, the course will provide an introduction to cold chain, Member ASHRAE, BEMP, LEED® AP; Sam Mason, P.E., Member including various types of cold-chain routes paired with descriptions, ASHRAE, BEMP, LEED® AP, and McHenry Wallace, P.E., Member photographs, diagrams, and illustrations. Concepts important to the ASHRAE, LEED® AP sustainable design of cold chain facilities will be covered, including building layout, thermal insulation, energy-efficient refrigeration Evaluation Methods for High-Performance Green Buildings systems, heat recovery systems, water recycling, and renewable Building performance design guidelines and evaluation metrics include energy systems. LEED®, Portfolio Manager®, Green Globes, ISO 50001, IPMVP, and Instructors: Harshal Surange, Member ASHRAE ASHRAE standards and guidelines, including ASHRAE Standards 90.1 and 189.1. Each serves a specific purpose; some are focused on Energy Efficiency in Data Centers a single aspect, others view performance in a holistic sense. Selecting There are plenty of opportunities to save energy in data centers. Data a guide or metric depends on design goals and target audience. This centers are using an increasing amount of the total energy used by course introduces various guidelines and their applicability to high- commercial facilities. However, these increases have a downside in performance buildings. It then discusses establishing design goals, the that they have caused a significant increase in the power required need for verification, performance evaluation methods, implementing and the heat dissipated by the computing equipment, such that it specific methods, and identifying corrective actions as needed. is becoming very difficult to power and cool these systems in data Demonstrations of relevant tools such as Portfolio Manager and Target centers or telecommunications rooms. This course examines the best Finder will be conducted. practices for data center energy efficiency by focusing on thermal Instructor: Mark Stetz, P.E., Member ASHRAE, BEAP guidelines for data processing, datacom facility energy efficiency, and actual high density data centers in operation today. You will gain High-Performance Building Design: Applications and Future an understanding of equipment environment specifications while Trends learning methods for measuring performance and developing means This course presents applications of new technologies and design to evaluate effectiveness of data center cooling. You will also receive concepts to achieve the goal of high-performance buildings, including instructions on the use of the U.S. DOE’s DCPro web-based energy zero energy or nearly zero energy buildings. The course discusses modeling tools for data centers. exactly what a high-performance building is from the perspective Instructors: Don Beaty, P.E., Fellow ASHRAE; Jack Glass, P.E., of various stakeholders. High performance is more than just energy Member ASHRAE; and Roger Schmidt, Ph.D., P.E., Member ASHRAE efficiency, and this course addresses issues and methods for providing high performance in areas beyond energy efficiency, such as indoor Energy Management Best Practices environmental quality. The course describes future possibilities for Buildings use 40% of U.S. energy, of which one-third can be cost- high-performance buildings across the globe and quickly summarizes effectively saved. To achieve this goal, building professionals can how ASHRAE standards (existing and those in development) address utilize energy management—an orderly process in which managers these topics. use resources at their disposal to accomplish clear, energy-saving Instructor: Tom Lawrence, Ph.D., P.E., Member ASHRAE, LEED® AP objectives. This course weaves together energy management principles of the ASHRAE Handbook—HVAC Applications, ENERGY STAR ® guidelines, and ASHRAE/IES Standard 100-2015, Energy

9 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. How Smart, Efficient, Sustainable Systems Lead to Improved ENVIRONMENTAL QUALITY Resilience This course provides a descriptive summary of the concept of Avoiding IAQ Problems resilience in the built environment and how sustainability, efficiency, Based on ASHRAE’s Indoor Air Quality Guide: Best Practices for and smart technology can help improve resilience. The concept of Design, Construction, and Commissioning, this course provides resilience in the context of the built environment applies to both a systematic overview of the key objectives that must be met to manmade (e.g., terrorism) and natural (e.g., weather) events as they achieve good indoor air quality. A review of the most common causes influence the infrastructure and systems that our society is built of IAQ problems in buildings, as well as the process management around. In this respect, we can define resilience as the capacity of the strategies that owners and design teams can use during design, built environment (such as buildings, transportation, and energy and construction, and turnover to help avoid IAQ problems are discussed. water distribution systems), as well as the communities and individuals The course discusses the state-of-the-art strategies to prevent IAQ within, to survive, adapt, and grow when subject to chronic stress or problems related to moisture and mold in building assemblies, outdoor acute shocks. The course concludes by looking at future trends and contaminants, moisture and dirt in air handling systems, material technologies that will soon (or may reasonably in the near future) enter emissions, outdoor air monitoring and control, and more. Case studies the market and of which the attendee should be aware. and examples are provided to help make the IAQ Guide easy to use on Instructors: Tom Lawrence, Ph.D., P.E., Member ASHRAE, LEED® your next project. AP; and Drury Crawley, Ph.D., AIA, Fellow ASHRAE, BEMP Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP

IT Equipment Design Evolution and Data Center Design IAQ Best Practices for Design, Construction, and Operation Optimization Commissioning IT manufacturers are continually responding to customer demands. What are the critical parts of a project that can jeopardize indoor air Depending on the market sector, the demands call for IT equipment quality (IAQ) in your next building or building project? Knowing the that is lower cost, more energy efficient, provides more storage, key components of IAQ will help you to manage, organize, direct, and provides more computing capabilities. This results in continued, design, or commission your next project. In addition to identifying key significant changes in hardware, including the hardware operating issues, this course will point out what parts of the project process conditions. This course describes the changing IT equipment and its are especially vulnerable to risk. There are also decisions made in impact on data center operating conditions. The course also shares the project process related to building envelope, building HVAC, and important insight resulting from the hard work in these areas by building operations and maintenance that affect the long term health ASHRAE Technical Committee 9.9, Mission Critical Facilities, Data of the building and its occupants. Knowledge conveyed is based upon Centers, Technology Spaces, and Electronic Equipment. ASHRAE’s Indoor Air Quality Guide. Instructors: Don Beaty, P.E., Fellow ASHRAE; Roger Schmidt, Ph.D., Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP P.E., Member ASHRAE; and Jack Glass, P.E., Member ASHRAE Humidity Control I: Design Tips and Traps Operations and Maintenance of High-Performance Buildings In commercial buildings, excess humidity and moisture promotes mold, A high-performance building “consistently delivers a highly productive mildew, and uncomfortable conditions for occupants. This course, environment without wasting resources,” according to ASHRAE based on ASHRAE’s Humidity Control Design Guide for Commercial Guideline 32, Sustainable High-Performance Operations and and Institutional Buildings and on the ASHRAE Guide for Buildings Maintenance. Operating and maintaining high-performance buildings in Hot & Humid Climates, helps the designer achieve true control of often requires different actions than for a typical commercial or humidity, rather than just its moderation. The course covers how to institutional building. The course includes an interactive group project understand and easily estimate the major humidity loads that must to reinforce concepts such as how to identify and define energy and govern the design of the system and decisions about equipment size maintenance management metrics and how to make the business and configuration. Attendees will learn what equipment is used for this case for changes to an existing building and its systems. purpose, how it works, and how to apply it quickly, economically, and Instructor: Laurie Gilmer, P.E., Member ASHRAE, LEED® AP reliably. Instructors: Lew Harriman, Fellow ASHRAE; and Mark Nunnelly, P.E., Thermal Energy Storage Systems for Air Conditioning Member ASHRAE, BEMP, LEED® AP Building air-conditioning systems are the single greatest contributor to aggregate peak electrical demand. As a technology, thermal energy Humidity Control II: Real-World Problems and Solutions storage enables shifting a significant proportion of a facility’s demand Based on ASHRAE’s best-selling Humidity Control Design Guide for electricity from daytime to nighttime periods. Furthermore, thermal for Commercial and Institutional Buildings, this course includes an energy storage enables flexibility in the demand for electricity by in-depth discussion of moisture load calculations and how humidity building air-conditioning systems—principally operating during time control can be added to HVAC designs for seven different types of periods where renewable energy is plentiful and idling during time commercial buildings. The course also covers the effects of different periods where renewable energy is sparse or unavailable. Through humidity levels on thermal comfort, corrosion, mold growth, and this course, participants will come to understand how thermal energy airborne microorganisms—information that helps the owner and storage can enable greater use of renewable energy generation designer define the optimal humidity control level for each application. and learn whether an existing or new facility may benefit from the Instructors: Lew Harriman, Fellow ASHRAE; and Mark Nunnelly, P.E., application of a thermal energy storage system. Member ASHRAE, BEMP, LEED® AP Instructor: Doug Reindl, Ph.D., P.E., Fellow ASHRAE

Visit www.ashrae.org/education for more details and to register. 10 Seminars/Courses subject to change without notice. Humidity Control I and II: Tips for HVAC Design and Practical and annual energy savings. A variety of different dedicated outdoor Solutions to Existing Problems air systems, neutral air systems, and enhanced dehumidification Sooner or later, every HVAC designer and facility manager comes strategies (with single and multiple heat exchangers) will be examined up against a problem created by moisture and/or excessive humidity in detail. The advantages and important considerations for using air-to- in their buildings. This six-hour seminar consists of two, three-hour air energy recovery in a variety of different applications will be covered. modules. Humidity Control I explains how humidity problems can Best practices for mechanical design, exchanger selection, and control be easily avoided in new designs by simple and effective humidity strategies will be discussed throughout. specifications and use of dedicated outdoor air systems that keep Instructor: Paul Pieper, P.Eng., Member ASHRAE ventilation air dry. Humidity Control II describes classic problems and solutions for existing buildings when there may be little or no budget Air-to-Air Energy Recovery Fundamentals for different equipment or controls. This course introduces recommendations in the latest ASHRAE Instructors: Lew Harriman, Fellow ASHRAE; and Mark Nunnelly, P.E., and AHRI standards, codes, and guidelines with respect to air-to- Member ASHRAE, BEMP, LEED® AP air energy recovery technology to help determine where and when energy recovery is mandated and why. In addition, the course will Introduction to Ultraviolet Germicidal Irradiation (UVGI) also review a variety of important performance metrics to provide Systems realistic measures to help evaluate these devices. Finally, the course A comprehensive introduction to how ultraviolet germicidal irradiation will also provide a detailed overview of the most popular commercially (UVGI) can be used in conjunction with HVAC systems to improve available technologies on the market today and explore their indoor environmental quality (IEQ) and reduce airborne disease construction, psychrometrics, thermodynamic theory of operation, transmission is the focus of the course. The course surveys the history and important operations and maintenance considerations for long and development of UVGI from its beginnings in the 19th century to life and consistent performance. The advantages of using different the present, describes the fundamentals of the germicidal action of technologies and a variety of different applications along with practical UVGI and characteristics of UVGI sources, common system types and advice and concrete examples will be provided throughout. their applications, the economics of UVGI, and practical considerations Instructor: Paul Pieper, P.Eng., Member ASHRAE including material degradation, maintenance and safety. Case studies are used to illustrate typical applications. Air-to-Air Heat Recovery Fundamentals and Applications Instructor: William Bahnfleth, Ph.D., P.E., Presidential/Fellow, Member (MENA) ASHRAE This course reviews real-world examples of where and how air-to-air energy recovery technologies are integrated into some of the most Optimizing Indoor Environment: Increasing Building Value commonly used, commercially available systems. A variety of different Increase building value by meeting owner and occupant requirements. dedicated outdoor air systems (DOAS), neutral air systems, and Buildings are provided to house and accommodate people individually enhanced dehumidification strategies (with single and multiple heat or in groups. These structures can either help or hinder peoples’ exchangers) are examined in detail, along with the advantages and productivity and enjoyment of the indoor environment. Indoor important considerations for using air-to-air energy recovery in many environmental quality (IEQ) is highly correlated to building occupants’ different applications. Best practices for mechanical design, exchanger performance and satisfaction. ASHRAE sets the standards for selection, and control strategies will be discussed throughout. minimum IEQ. ASHRAE also provides resources for understanding Participants should be interested in learning how to evaluate different how to go beyond the minimum in improving IEQ conditions in DOAS setups incorporating air-to-air energy recovery and how to buildings. Another factor in building productivity is cost. ASHRAE avoid common errors in equipment design while simultaneously provides multiple resources for managing utilities costs in commercial evaluating these systems beyond just peak performance. buildings. The newest and most sophisticated tool for buildings Instructor: Hassan Younes, Member ASHRAE, BEAP, BEMP, HBDP, is Building EQ. This course focuses on implementing ASHRAE CPMP, HFDP, OPMP guidance for improvement with background information to provide understanding of the various interrelated components that affect Design of Affordable and Efficient Ground-Source Heat IEQ. Implementing the processes provided will set a direction for Pump Systems continuous improvement of building productivity, thus increasing value This course describes the best design practices of ground-source in tomorrow’s built environment. heat pump systems to achieve maximum customer benefit. The course Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP examines the economic analysis of ground-source versus more traditional systems and what is necessary to design an effective and HVAC&R APPLICATIONS efficient ground-source system. The course covers energy analysis, equipment selection, drilling technologies, testing requirements, Air-to-Air Energy Recovery Applications: Best Practices hydronic system design, and system controls. Participants will learn Air-to-air energy recovery provides one of the most cost-effective all that is necessary for the design and installation of a successful and efficient ways to recycle waste energy and create superior indoor ground-source heat pump system. environments. This course will review real-world examples of where Instructor: Steve P. Kavanaugh, Ph.D., Fellow ASHRAE and how air-to-air energy recovery technologies are integrated into some of the most common, commercially available systems. Particular Designing and Operating High-Performing Healthcare HVAC configurations that are most commonly used in high performance Systems buildings and how they can best be used to meet stretch goals for This advanced course discusses the nuances of HVAC system IEQ, energy efficiency, and thermal comfort will be examined with design for healthcare facilities. The course details the relationship respect to established performance metrics, peak performance results, of infection control and HVAC design including application of

11 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. ASHRAE/ASHE Standard 170-2017, Ventilation of Health Care Healthcare Facilities: Best Practice for HVAC Design and Facilities. The course will go into detail on the interactions of the key Operation elements of high performance in healthcare, infection control, comfort, Based on the ASHRAE book HVAC Design Manual for Hospitals and reliability, safety, maintenance, energy and sustainability. Numerous Clinics, this course introduces many unique and up-to-date healthcare energy conservation strategies will be considered in the context of design considerations and applications. The course covers Chapters achieving all the goals of a high-performing hospital. For example, the 1-4, 6-11, and 13-16. Common medical terminology is introduced, and hardware and controls for setback of temperature and airflow and the terminology differences between the medical and engineering fields relationship to temperature, relative humidity, air exchange, filtration, are examined. Infection particles and their transport mechanisms are and pressurization requirements are discussed. covered, followed by infection control methods. A major emphasis is Instructors: Daniel Koenigshofer, P.E., Member ASHRAE, HFDP, placed on the necessary considerations for various diagnostic and LEED® AP; and Donald Burroughs, P.E., Member ASHRAE treatment and support areas. The second half of the course focuses on air-distribution designs for surgical and patient rooms. Various Designing HVAC Systems to Control Noise and Vibration control and energy efficiency techniques for cooling and heating Controlling noise and vibration is critical to ensuring the long-term, plants are presented along with O&M and other commissioning topics. proper operation of any HVAC system. Proper system design can Smoke control and life safety best practices and application issues prevent many noise/vibration problems. This seminar emphasizes finish the course. the important design information in ASHRAE’s Practical Guide to Instructor: Daniel Koenigshofer, P.E., Member ASHRAE, HFDP Noise and Vibration Control for HVAC Systems. Beginning with a fundamental discussion of acoustics, the seminar focuses on the Integrated Building Design proper design and selection of HVAC equipment. Special attention is This seminar will provide a working knowledge of the integrated given to fans and air-distribution systems. Also discussed are noise/ building design process, explaining the basic concepts involved vibration problems associated with central plant equipment, piping and outlining the fundamental application of this approach. Course systems, and outdoor equipment. Class exercises and case studies will content will explain the advantages and benefits of integrated be presented to reinforce the course information. building design and how this process differs from conventional Instructor: E. Curtis Eichelberger, P.E., Member ASHRAE design practice. The program structure will identify the necessary sequencing and scope of activities that should be implemented Designing Tall, Supertall, and Megatall Building Systems to support development of collaborative solutions. In addition to This course provides substantial new information and design design-related philosophy, course content will explore the critical assistance on tall, supertall and megatall building systems. The course elements of TEAM activity and management of collaborative teams. covers the main topics in the ASHRAE Design Guide for Tall, Supertall, This seminar will benefit any person who has a role in the planning, and Megatall Building Systems including analyzing/optimizing the design, construction, and operation of a built solution. Attendees will thermal performance of the building envelope; calculating the stack be able to strategically position themselves in the market place by effect; selecting appropriate mechanical systems and central plant understanding the value of project fundamentals and the importance alternatives; ventilation and thermal comfort; code compliance; of holistic interdependencies. Emphasis will be placed on transitioning chilled- and heated-water distribution systems; evaluating pumping traditional processes that aggregate isolated silos of knowledge into systems; fire and life safety systems; vertical transportation systems; collaborative thought and shared outcome. high-rise residential designs; and mechanically and naturally ventilated Instructor: Charles Gulledge, P.E., Member ASHRAE, HBDP, LEED® conditioning solutions. Also, energy modeling and energy use index AP; Lisa Rosenow, Member ASHRAE, LEED® AP; and Dennis Knight, (EUI) are presented to enable designers to assess the efficiency of P.E., Fellow ASHRAE the building and its systems. Finally, building and systems controls as well as smart grid operation are included. The course is for Introduction to BACnet® experienced engineers who want to broaden their knowledge of tall, This course helps students understand some of the elements required supertall and megatall building systems. to successfully plan for BACnet® and some of the complex issues Instructor: Peter Simmonds, Ph.D., Fellow ASHRAE that must be addressed to achieve interoperability. Students learn that interoperability covers a wide range of possible options, and Effective Presentation for Positive Results how to simplify interoperability by defining specific areas where Effectively present your ideas and communicate the depth of your interoperability is required. Also discussed are the basic components knowledge with this course. Geared towards HVAC&R professionals, of any multi-vendor or multi-discipline BACnet® control system, how Effective Presentation for Positive Results increases the impact of your different systems can be merged together using BACnet®, and how presentation through logical and sequential steps. Make compelling BACnet® facilitates the integration of older systems with BACnet®- presentations that result in positive outcomes by planning and based systems. The course does not discuss specific manufacturers or delivering organized, logical, and persuasive explanations. Improve alternatives to BACnet® or BACnet® specification writing. your methods and skills when presenting, particularly in front of Instructor: David Fisher, Member ASHRAE groups and when lecturing on complex, technical topics. As you learn to communicate with poise and self-confidence, you can better Laboratory Design: The Basics and Beyond prepare to convey information clearly and flexibly, with an eye towards A comprehensive overview of HVAC design for laboratories is impressing your audience. examined in this course. The course focuses on the essential elements Instructor: Alan Veeck, Life Member ASHRAE of the design process that are unique to laboratory HVAC systems.

Visit www.ashrae.org/education for more details and to register. 12 Seminars/Courses subject to change without notice. Topics include planning steps, determining exhaust/supply New Developments in Lower GWP Refrigerants (MENA) requirements, load calculation, pressure mapping, evaluating system This training provides a fast review of proposed refrigerants and options, layout of ducts and rooms, sizing primary air systems, how they can be used in different HVAC&R applications based on designing exhaust stacks, sustainability in laboratories, and control theoretical and empirical analyses. Challenges and opportunities strategies. Example problems and case studies will also be presented. associated with the different types of refrigerants are presented, Instructor: John Varley, P.E., Member ASHRAE, HBDP, LEED® AP including hydrofluoroolefins and natural refrigerants. Current and future refrigerant options suiting the region are covered, as well as Laboratory Exhaust Stacks: Safe and Energy-Efficient Design related standards and codes of systems and substances. This course provides designers and operators of laboratories with Instructor: Omar Abdelaziz, Ph.D., Member ASHRAE wet lab exhaust systems with the proper methodology to ensure safe systems operation. Laboratory Exhaust Stacks: Safe and Energy- Solar PV and Thermal Systems Analysis and Design Efficient Design walks students through the entire design process. This course is designed to introduce the HVAC community (engineers, Energy consumption represents an important component of the architects, building owners, facility managers, plus others) to course, as laboratories consume significantly more energy than a sustainable design principles and provide the knowledge necessary typical office building, due to laboratory ventilation systems. Training to evaluate and implement cost-effective solar applications for topics include how to properly locate air intakes and exhaust stacks commercial facilities. The purpose is to provide attendees with the and the various methods for applying variable-air-volume (VAV) control knowledge and skills required for the development, evaluation, to minimize energy usage while avoiding adversely impacting the air procurement, and installation of commercial solar projects. The quality. Attendees will calculate an appropriate concentration design technical focus is on cost-effective photovoltaic and solar water criterion for a specific emission source and determine dispersion heating applications for commercial facilities. However, a wide modeling techniques for particular applications. variety of solar applications are discussed. The objective is to enable Instructor: Brad Cochran, P.E., Member ASHRAE the participants to economically evaluate, procure, and monitor the design and installation of a wide variety of cost-effective solar energy Latest in High-Performance Dedicated Outdoor Air Systems applications. (DOAS) Instructors: Khalid Nagidi, P.E., Member ASHRAE, LEED® AP; Svein The dedicated outdoor air system (DOAS) has become a very popular Morner, Ph.D., Member ASHRAE means to provide ventilation for buildings, particularly for low-energy, max tech, and zero energy buildings. DOAS and the accompanying The Future of Refrigerants: Challenges and Opportunities room-level heating/cooling units provide many benefits, including low (MENA) energy use, cost-effective humidity control, redundancy, and control This training provides a background review of international treaties simplicity. This course covers the latest in DOAS application, design, and initiatives that support the transition from hydrochlorofluorocarbon and control, and the instruction is best suited for those seeking basic (HCFC) and hydrofluorocarbon (HFC) refrigerants towards non- to intermediate discussions on DOAS, including an overall introduction ozone-depleting, low-global-warming-potential substances. A review of to the concept. proposed refrigerants and how they can be used in different HVAC&R Instructor: Arthur Hallstrom, P.E., Fellow/Life Member ASHRAE, applications based on theoretical and empirical analyses is discussed. BEMP Challenges and opportunities associated with the different types of refrigerants are presented, including hydrofluoroolefins and natural New ASHRAE-Classified Refrigerants to Meet Society’s refrigerants. Current and future refrigerant options suiting the region Changing Needs are covered, as well as related standards and codes of systems and ASHRAE Standard 34 maintains a list of refrigerants with a substances. Finally, the course wraps up with a discussion on the standardized system of assigned refrigerant numbers and well- systems perspective and how to best understand the opportunities for defined safety classifications, including toxicity and flammability energy-efficiency improvements along with hands-on experience with ratings. This ever-growing list of refrigerants currently includes 161 free software, such as life-cycle climate performance web applications chemicals and chemical blends that have been proposed for use as and the heat pump design models. refrigerants. There has long been use of flammable and toxic materials Instructors: Omar Abdelaziz, Ph.D., Member ASHRAE; and Karim as refrigerants, such as propane and ammonia, but their use has been Amrane, Ph.D., Member ASHRAE restricted to appropriately designed industrial systems, as described in ASHRAE Standard 15 and other safe-use guidelines. Presently, Understanding and Designing Chilled-Beam Systems concern about global climate change is driving the cooling industry to This course is primarily designed for mechanical engineers with at consider new classes of chemicals to be used as refrigerants. With the least three years of experience in the design of commercial HVAC new chemicals are new safety classifications for flammability, including systems. Chilled-beam systems save on cooling and transport Class 2L. This short course explains how the changing needs of energy by decoupling most or all of the space sensible loads from society are creating requirements for new refrigerants to be developed the air-distribution system and removing them with water, a much and used. The course also explains the new safety classifications more efficient heat transfer medium. Attendees will review HVAC that are being proposed and some of the ramifications of these new fundamentals as they relate to chilled-beam system design. They classifications. will also understand the system benefit, be able to identify suitable Instructor: Thomas Leck, Ph.D., P.E., Member ASHRAE applications, and learn how to design chilled-beam systems to optimize the energy and operational benefits. Properly identifying and controlling equipment and components that optimize design are also major components of this course.

13 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. Efficient design of a chilled-beam system requires some departure be more involved in the management of projects and engineering from practices and conventions used to design all-air VAV systems. issues. To advance from design engineer to project manager to firm As most North American HVAC designers have almost exclusively owner, an engineer should have training and experience in acquiring used VAV systems, they are often not aware of the energy benefits new projects (business development and marketing of engineering that can be derived by departure from some of these VAV-system services), planning and management of those projects to be profitable, rule-of-thumb design procedures. This course seeks to identify accounting associated with client billing, and even client management. those areas where slight design modifications can greatly enhance If young engineers intend to start a consulting engineering firm, the the performance of the system. This course is intended to educate knowledge of firm ownership and operation offered in this course is the attendees so that they can decide whether claims regarding the essential. operation and costs of chilled-beam systems are justified. Instructor: Dennis Wessel, P.E., Fellow/Life Member ASHRAE, Instructor: Ken Loudermilk, P.E., Member ASHRAE LEED® AP

Variable Refrigerant Flow Systems: Design and Applications HVAC Design: Level I—Essentials Variable refrigerant flow (VRF) systems are now being applied in When graduates from technology or engineering schools enter the many building types across North America. This course provides workforce, they are often ill-equipped to deal with the challenges non-manufacturer-specific concepts of how to apply VRF systems of their positions. This three-day training provides participants with to buildings. The course supplements the fundamental technology training that accelerates their transformation into effective members presented in the 2016 ASHRAE Handbook—HVAC Systems and of a design, construction or facilities maintenance team. Attendees will Equipment, offering consulting engineers who already have a basic gain practical and immediately useful skills and knowledge to design knowledge of VRF technology comprehensive system design and and maintain HVAC systems. application guidance using building-specific scenarios. This course Instructors: José Luís Alexandre, Ph.D., Member ASHRAE; Donald is geared towards mechanical engineers, design/build contractors, Brandt, Life Member ASHRAE, BEAP; Charlie Henck, P.E., Fellow/Life consulting engineers, HVAC system designers, and facility engineers. Member ASHRAE, CEM, LEED® AP; Julia Keen, Ph.D., P.E., Fellow Instructor: Jocelyn Léger, P.Eng., CEM, Member ASHRAE, ASHRAE, BEAP, HBDP; Joel Primeau, Eng., Member ASHRAE, LEED® AP HBDP, LEED® AP; Rafael Úrculo, Member ASHRAE; and Dennis Wessel, P.E., Fellow/Life Member ASHRAE, LEED® AP Variable Refrigerant Flow Systems: Design and Applications (MENA) HVAC Design: Level I—Essentials (MENA) This course provides an overview of variable refrigerant flow (VRF) The ASHRAE Global Training Center for Building Excellence is technology, including equipment and system types, heating/cooling organizing a three-day HVAC Design Essentials training to provide operation, heat recovery, and the benefits of VRF systems. Also intensive, practical training for HVAC designers and others involved described is the VRF design process, including load profile analysis, in the delivery of HVAC services in the MENA region. In three days, unit sizing, ventilation air strategy, refrigerant piping design, and gain real-world practical design skills and knowledge that can be system monitoring/controls. Refrigerant safety considerations are put to immediate use in designing and maintaining HVAC systems. explained, including a discussion of ASHRAE Standards 15 and 34. Developed by industry-leading professionals selected by ASHRAE and The course concludes with a focus on human comfort and sustainable customized for the Middle East, the training provides the fundamental design featuring example buildings, ventilation systems, and VRF and technical aspects of designing and maintaining HVAC systems. system layouts. Instructors: Walid Chakroun, Ph.D., P.E., Fellow ASHRAE; Hassan Instructors: Samir Traboulsi, Ph.D., P.Eng., Fellow Life Member Younes, Member ASHRAE, BEAP, BEMP, HBDP, CPMP, HFDP, ASHRAE; and Hassan Younes, Member ASHRAE, BEAP, BEMP, OPMP; and Samir Traboulsi, Ph.D., P.Eng., Fellow Life Member HBDP, CPMP, HFDP, OPMP ASHRAE

Variable Refrigerant Flow Systems: Technology Introduction HVAC Design: Level II—Applications This course provides an overview of variable refrigerant flow (VRF) ASHRAE’s HVAC Design: Level II—Applications training provides technology including equipment and system types, heating/cooling participants with detailed instruction on HVAC system designs. The operation, heat recovery and the benefits of VRF systems. Also course is tailored for engineers with advanced experience in the HVAC described is the VRF design process, with a particular focus on design field or those who completedHVAC Design: Level I—Essentials. load profile analysis, unit sizing, ventilation air strategy, refrigerant Developed by industry-leading professionals, the training provides piping design, and system monitoring/controls. Refrigerant safety advanced information that allows practicing engineers and designers considerations are explained, and there is a discussion of ASHRAE an opportunity to expand their exposure to HVAC system design Standards 15 and 34. The course concludes with a focus on human procedures. Attendees will improve their understanding of system comfort and sustainable design featuring example buildings, ventilation options to save energy and improve indoor air quality. systems, and VRF system layouts. Instructors: José Luís Alexandre, Ph.D., Member ASHRAE; Donald Instructor: Dermot McMorrow, P.Eng., Member ASHRAE Brandt, Life Member ASHRAE, BEAP; Charlie Henck, P.E., Fellow/Life Member ASHRAE, CEM, LEED® AP; Julia Keen, Ph.D., P.E., Fellow HVAC APPLICATIONS ASHRAE, BEAP, HBDP; Joel Primeau, Eng., Member ASHRAE, HBDP, LEED® AP; Rafael Úrculo, Member ASHRAE; and Dennis Consulting Engineering Essentials Wessel, P.E., Fellow/Life Member ASHRAE, LEED® AP The typical entry-level consulting engineer spends a great deal of time on technical issues such as calculating, designing, or drawing, or perhaps being mentored in these issues. To advance, the engineer

Visit www.ashrae.org/education for more details and to register. 14 Seminars/Courses subject to change without notice. Improving Existing Building Operation Choosing the Right Energy Code for Your Project: IECC 2018 This training focuses on the built environment and existing HVAC or ASHRAE 90.1-2016 systems. The proper operation and maintenance of existing HVAC ASHRAE/IES Standard 90.1-2016 has been determined by the systems are discussed. The course also introduces different methods Department of Energy (DOE) to cost-effectively save energy, for evaluating potential improvements to a building and its systems. triggering adoption of the standard in numerous states and federal This two-day training provides the techniques to measure existing departments. The International Energy Conservation Code (IECC) has building performance to make their facilities operate more efficiently been adopted by states as a part of the International Code Council and economically. suite of codes. The IECC allows ASHRAE/IES Standard 90.1 to be Instructor: Julia Keen, Ph.D., P.E., Fellow ASHRAE, BEAP, HBDP used as an alternate path to compliance for specified requirements of the IECC. Early in a project, a designer must determine whether Improving Existing Building Operation (MENA) to use the standard or the code to comply with all project disciplines. Improving Existing Building Operation (MENA) provides the This seminar will provide the information needed to make the fundamental and technical knowledge for the proper operation determination with full knowledge of the requirements that must be and maintenance of existing HVAC systems to maximize building met. It will compare the requirements of the standard and the code performance. The training has been customized to take into account and explain how to apply each. Participants will identify the effort and the special design requirements of the Middle East. This two-day compromises required to show compliance with codes based on the Improving Existing Building Operation training focuses on the project design. importance of proper operation and maintenance of existing HVAC Instructor: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; systems. The training also introduces different methods for evaluating and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP potential improvements to a building and its systems in the MENA region. Developed by industry-leading professionals selected by Complying with Standard 90.1-2013 ASHRAE and customized for the Middle East, the training provides Targeted at design professionals, code officials, and building owners, techniques to effectively select and communicate with consulting the various versions of ASHRAE/IES Standard 90.1 have been the engineers and energy consultants. benchmarks for commercial building energy codes in the United Instructors: Hassan Younes, Member ASHRAE, BEAP, BEMP, States and a key basis for standards in more than 15 countries around HBDP, CPMP, HFDP, OPMP: and Hesham Safwat, Ph.D., Member the world. The 2013 update of ASHRAE/IES Standard 90.1 is a major ASHRAE revision, containing more than 100 changes from the 2010 version. Instructors: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; STANDARDS AND GUIDELINES and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP

Applications of Standard 62.1-2013: Multiple Spaces Complying with Standard 90.1-2016 (Equations and Spreadsheets) The 2016 update of ASHRAE/IES Standard 90.1, Energy Standard Applying ASHRAE Standard 62.1-2013 to multiple spaces can be for Buildings Except Low-Rise Residential Buildings is a major revision, challenging even for advanced HVAC practitioners. This advanced containing more than 125 changes from the 2013 version. This course covers the new Appendix A method and focuses on using the seminar is designed to give the participants a good understanding new spreadsheet from the 2013 user’s manual. The material includes of how to comply with the requirements of ASHRAE/IES Standard both constant-volume and VAV applications and then examines certain 90.1-2016. This seminar is highly interactive and includes example cases where secondary recirculation applies. The course intent is to buildings plus several in-class exercises (for building envelope, develop proficiency in using the spreadsheet tool for improving design lighting, and HVAC) with problems that participants can solve solutions that will comply with the 2013 standard. A copy of the individually or in teams. Files for the example buildings and in-class spreadsheet will be provided and attendees are strongly encouraged exercises will be available for download from ASHRAE. Participants to bring their laptops to learn the spreadsheet’s power and the are strongly encouraged to bring their laptops to the seminar for use effect on total outdoor air required when changing different design with ComCheck software and other exercises. parameters. Instructors: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP

ASHRAE 90.1 Code Compliance and Plan Review for Complying with Standard 90.1-2013: Envelope/Lighting Authorities Having Jurisdiction The 2013 update of ASHRAE/IES Standard 90.1 is a major revision, This seminar provides guidance on how to specify and manage the containing more than 100 changes from the 2010 version. This compliance procedures conducted and recognize issues that surface course focuses on the importance of the significant changes in the under both design/bid/build and design/build project arrangements. lighting and envelope requirements and how they reduce loads on the The prescriptive compliance section focuses on reviewing ASHRAE HVAC systems and on overall energy use. Topics include significant forms and relevant ComCheck submissions and cross checking the changes in mandatory requirements for air barriers and daylighting. information on standard design documents. The seminar explains the Instructor: Joseph Deringer, AIA, Life Member ASHRAE, requirements of the standard and how the requirements are presented LEED® AP in the energy model input and output. Examples of several different energy simulation model platforms are given. Complying with Standard 90.1-2016: Envelope/Lighting Instructor: McHenry Wallace, P.E., Member ASHRAE, LEED® AP ASHRAE/IES’s Standards 90.1-2010 and 90.1-2013 together produce almost 40% energy savings from the 2004 version, with the envelope and lighting requirements contributing substantially to these reductions. This course focuses on the importance of the recent

15 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. changes in the lighting and envelope requirements and how they ASHRAE Standard 62.1 to 62.2. This course provides an overview reduce loads on the HVAC systems and on overall energy use. Topics of the requirements of the new standard with emphasis on changes include the significant new mandatory requirements for air barriers from the previous version and practical application of the standard and daylighting. The 2016 update of ASHRAE/IES Standard 90.1 to modern VAV systems. New requirements to the indoor air quality contains 8.5% source energy savings, 7.6% site energy savings, and procedure for determining minimum ventilation rates are discussed. more than 100 changes from the 2013 version. This course is highly In the 2016 version, changes were made in determining air class interactive and includes several in-class exercises with problems that for laboratory exhaust systems and the use of sensors for demand participants can solve individually or in teams. Participants are strongly control ventilation, and these changes are discussed as well. The encouraged to bring their laptops. course presents sample calculations for code review and for physical Instructor: Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP operation. This course has been customized for the Middle East by instructors well versed in the concerns for professionals in the region. Complying with Standard 90.1-2013: HVAC/Mechanical Instructor: Hassan Younes, Member ASHRAE, BEAP, BEMP, HBDP, Design professionals, code officials, and building owners must keep up CPMP, HFDP, OPMP with the new, more stringent requirements to comply with the quickly evolving ASHRAE/IES Standard 90.1-2013. This course describes Exceeding Standard 90.1-2013 to Meet LEED® Requirements the new and updated mandatory and prescriptive requirements (Available as a half-day course and full-day seminar) for HVAC and service water heating systems, along with insights This course explores how to obtain significant energy savings on how to comply during building design and construction. The and obtain LEED® credits by following the new, more stringent 2013 edition added an 8.5% source energy savings and 7.6% site requirements of ASHRAE/IES Standard 90.1-2010 and 2013, and energy savings, for a total of nearly 40% below that required for a using Appendix G rules and procedures. Appendix G is especially 2004-compliant building. The U.S. Department of Energy issued a applicable to LEED® credits and to U.S. energy tax credits. ASHRAE/ ruling that establishes ASHRAE/IES Standard 90.1, Energy Standard IES Standards 90.1-2010 and 90.1-2013 together produce almost for Buildings Except Low-Rise Residential Buildings, as the commercial 50% energy savings from the 2004 version. So, by substantially building reference standard for state building energy codes. surpassing the 2013 standard requirements, buildings should achieve Instructor: McHenry Wallace, P.E., Member ASHRAE, LEED® AP well over 50% energy savings. This course uses OpenStudio/ EnergyPlus examples, including live demos and hands-on exercises Complying with Standard 90.1-2016: HVAC/Mechanical in OpenStudio, to present an overview of applying key ASHRAE/IES ASHRAE/IES’s Standard 90.1-2016, Energy Standard for Buildings Standard 90.1-2010/2013 requirements and Appendix G rules. This Except Low-Rise Residential Buildings, has received a determination course is targeted at design professionals and building owners. issued by the U.S. Department of Energy stating that this standard Instructors: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; would achieve greater energy efficiency in commercial buildings and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP subject to the code and that buildings meeting this standard would result in national energy cost savings of approximately 8.2% (as Fundamentals and Applications of Standard 55 compared to the 2013 edition). Design professionals, code officials, Based on ASHRAE Standard 55, Thermal Environmental Conditions and building owners must now keep up with the new, more stringent for Human Occupancy, this course covers the theory and principles requirements to comply with this quickly evolving standard. of the standard. It is intended to bridge the gap between the design Instructor: McHenry Wallace, P.E., Member ASHRAE, LEED® AP practitioner’s knowledge of the built environment and its thermal relationship to the occupant’s physiology and psychology. Using Complying with the Requirements of Standard 62.1-2016 examples, the course illustrates how to achieve compliance with the This seminar provides an overview of the requirements of ASHRAE standard for the purposes of satisfying the requirements of various Standard 62.1-2016, Ventilation for Acceptable Indoor Air Quality, building performance programs such as LEED®. with an emphasis on changes from the previous version and practical Instructors: Peter Alspach, P.E., Member ASHRAE, LEED® AP; application of the standard to modern VAV systems. Robert Bean, R.E.T., P.L. (Eng.), Member ASHRAE; and Lawrence Schoen, P.E., Fellow ASHRAE New requirements to the indoor air quality procedure for determining minimum ventilation rates are discussed. In the 2016 version, changes Fundamental Requirements of Standard 62.1-2013 were made in determining air class for laboratory exhaust systems and This introductory course focuses on the basic requirements of the use of sensors for demand control ventilation. The course presents ASHRAE Standard 62.1-2013, Ventilation for Acceptable Indoor sample calculations for code review and for physical operation using Air Quality. The course covers the scope, application, and multiple the latest ASHRAE spreadsheet. compliance paths available in the standard including the ventilation Instructors: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® rate procedure, indoor air quality procedure, and natural ventilation AP; and Chandra Sekhar, Ph.D., Fellow ASHRAE procedure. Many of the standard’s general requirements apply regardless of the procedure used. The different application conditions Designing for IAQ: Complying with the Requirements of for the ventilation rate procedure are also described. In the 2013 Standard 62.1 (MENA) version, changes were made affecting filtration, humidification, and This seminar focuses on the basic requirements of ASHRAE Standard some ventilation rates. This course is highly recommended for all 62.1-2016, Ventilation for Acceptable Indoor Air Quality. The newest HVAC designers and engineers. version of the standard includes a major change to the scope of Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP the standard by which residential occupancies are moved from

Visit www.ashrae.org/education for more details and to register. 16 Seminars/Courses subject to change without notice. Fundamental Requirements of Standard 62.1-2016 Save Over 35% Using Appendix G of ASHRAE Standard This introductory course focuses on the basic requirements of 90.1-2016 ASHRAE Standard 62.1-2016, Ventilation for Acceptable Indoor Learn how to use the innovative new performance rating method in Air Quality. The course covers the scope, application, and multiple Appendix G of ASHRAE/IES Standard 90.1-2016. Learn to apply compliance paths available in the standard including the ventilation the new rules and procedures via whole-building energy simulations rate procedure, indoor air quality procedure, and natural ventilation to demonstrate that a building has much better energy performance procedure. Many of the standard’s general requirements apply than a building that just meets the requirements of ASHRAE/IES regardless of the procedure used. The different application conditions Standard 90.1-2016. See how Appendix G-2016 can be used to for the ventilation rate procedure are also described. In the 2016 show compliance with ASHRAE/IES Standard 90.1-2016; this is the version, changes were made affecting residential scope, demand first time Appendix G has been usable in this manner. Also learn to control ventilation, IAQ procedure, and some ventilation rates. This use Appendix G-2010 in conjunction with LEED® V4 to obtain LEED® course is highly recommended for all HVAC designers and engineers. points. Key performance rating method rules and requirements for Instructor: Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP HVAC, lighting, and building envelope systems are also discussed. Instructors: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; Guideline 36: Best in Class HVAC Control Sequences and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP This course introduces the current version of ASHRAE Guideline 36, which focuses on variable-air-volume (VAV) systems. The discussion Standard 90.1: HVAC/Mechanical Design and Appendix G will include the research underlying the current sequences and (MENA) ongoing and planned future research intended to develop additional This course focuses on the major requirements of ASHRAE/IES advanced sequences for other HVAC system types. In this course, Standard 90.1-2016, including incorporated addenda. The Standard attendees will learn about the ASHRAE Guideline 36 sequences and 90.1: HVAC/Mechanical and Appendix G (MENA) course will also how they improve energy efficiency, thermal comfort, and indoor air cover highlights of the envelope, mechanical, HVAC, and lighting quality. Attendees will also learn how to specify sequences for this requirements in Appendix G and its new compliance path and guideline. performance rating method. Baseline building conditions and climate Instructor: Steven T. Taylor, P.E., Fellow/Life Member ASHRAE zone information on many cities in the MENA region will also be provided. IgCC and ASHRAE Standard 189.1 Technical Provisions Instructor: Samir Traboulsi, Ph.D., P.Eng., Fellow/Life Member (co-sponsored with ICC) ASHRAE The IgCC and ASHRAE Standard 189.1 Technical Provisions course covers how ASHRAE/ICC/USGBC/IES Standard 189.1, Successfully Managing the Risk of Legionellosis Using Standard for the Design of High-Performance Green Buildings, ASHRAE Standard 188 forms the technical basis for the International Green Construction Legionellosis is a health and safety concern for facility owners Code® (IgCC). This course provides a detailed look at the technical and operators and those who manage and oversee building water standard and its application as a building code, including a description systems and devices. ASHRAE Standard 188-2018 establishes the of key requirements contained in the IgCC and ASHRAE/ICC/ minimum legionellosis risk management requirements for the design, USGBC/IES Standard 189.1 on the topics of sites, water, energy, construction, installation, commissioning, operation, maintenance, indoor environmental quality, and materials. Consulting engineers, and service of premise plumbing, centralized building water systems architects, facility managers, contractors, and code officials will learn to and components. This course describes the environmental conditions distinguish between the two compliance path options (prescriptive and that promote the growth of Legionella in building water systems and performance) and their associated provisions in the IgCC, as well as the locations where Legionella control measures can be applied. how to apply these paths in design. A comprehensive management strategy for the prevention of Instructors: Thomas Lawrence, Ph.D., P.E., Member ASHRAE, legionellosis is also discussed in addition to a thorough introductory LEED® AP; and Anthony Floyd, Member ASHRAE, BEAP, LEED® AP, background on Legionella bacteria and legionellosis. Fellow AIA The course focuses on the compliance with ASHRAE Standard 188-2018 to provide a safer and healthier building environment. Save 30% Complying with Standard 90.1-2013 Instructors: Michael Patton, Member ASHRAE; and William Pearson, The 2013 version of ASHRAE/IES Standard 90.1 is widely used P.E., Member ASHRAE by many state and government entities. Learn the background and development of ASHRAE/IES Standard 90.1, its requirements and Understanding Standard 189.1-2014 for High-Performance compliance paths, and how to understand and apply the requirements. Green Buildings Key updates for each of the major building systems will be discussed. Based on ASHRAE Standard 189.1-2014, Standard for the This includes the HVAC system, lighting system, building envelope, Design of High-Performance Green Buildings Except Low-Rise service water heating, and power. You will learn key mandatory and Residential Buildings, this course provides a summary of the prescriptive requirements applicable to each system, as well as whole- standard’s specifications for minimum requirements in the design, building compliance options. Case studies and in-class exercises construction, and plans for operation of high-performance, green are included as appendices to the classroom presentation. During buildings. The standard applies to new buildings and their systems, the course, a number of examples are provided for how to improve new portions of buildings and their systems, and new systems and building energy efficiency and save money. equipment in existing buildings. The course covers the topical areas of Instructors: McHenry Wallace, P.E., Member ASHRAE, LEED® AP; water-use efficiency, indoor environmental quality, energy efficiency, and Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP

17 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. site sustainability, and a building’s impact on the atmosphere. Upon completion of this course, participants will understand the basic requirements of ASHRAE Standard 189.1, understand the background that led to the development of these requirements, and become familiar with how to apply the requirements in the standard to new commercial buildings and major renovation projects. Instructor: Thomas Lawrence, Ph.D., P.E., Member ASHRAE, LEED® AP

Understanding Standard 189.1-2014 for High-Performance Green Buildings (MENA) Based on ANSI/ASHRAE/USGBC/IES Standard 189.1-2014, this course provides the minimum requirements for the design, construction, and plans for operation of high-performance green buildings, including new buildings and their systems, new portions of buildings and their systems, and new systems and equipment in existing buildings. Water-use efficiency, indoor environmental quality, energy efficiency, site sustainability, and a building’s impact on the atmosphere are covered. The course presents the goals of establishing mandatory criteria in all topical areas, providing simple compliance options, and the complement of green building rating programs for ASHRAE Standard 189.1. Upon completion of this course, participants will understand the basic requirements of ASHRAE Standard 189.1, learn the background that led to the development of these requirements, and become familiar with how to apply the requirements in the standard to new commercial buildings and major renovation projects. Instructor: Walid Chakroun, Ph.D., P.E., Fellow ASHRAE, LEED® AP

Visit www.ashrae.org/education for more details and to register. 18 Seminars/Courses subject to change without notice. ASHRAE INSTRUCTORS

Omar Abdelaziz, Ph.D., Member ASHRAE, has 15 years of Karim Amrane, , Ph.D., Member ASHRAE, is owner and R&D and project management experience in building president of KA Consulting Services, LLC, where he provides energy-efficient technologies, sustainable energy production strategic consulting services to HVAC&R businesses and utilization, energy storage, technology evaluation and regarding federal and state regulations, legislation, codes and prioritization, thermodynamic analysis, thermofluid engineering, standards, alternative refrigerants, and energy efficiency. He is computational fluid dynamics, engineering optimization, alternative cooling also an adjunct professor at the University of Maryland, where and heating technologies, and alternative lower global warming refrigerants. he teaches graduate courses in mechanical engineering. Dr. Amrane has He actively collaborates with leading appliance and equipment over 25 years of experience in the air-conditioning and refrigeration manufacturers on the development of advanced and state-of-the-art industry. He is a member of ASHRAE, the International Institute of HVAC&R equipment. He has strong academic and research connections Refrigeration (IIR), and ASME. He is the recipient of ASHRAE’s and is quite involved in ASHRAE. Distinguished Service Award.

Fiona Aldous, Member ASHRAE, is a principal with Wiss Vikrant Aute, Ph.D., Member ASHRAE, serves as director of Janney Elstner Associates. She has performed comprehensive, the Integrated Systems Optimization Consortium. He has technical building enclosure commissioning on numerous twelve years of experience in the development of simulation buildings. Ms. Aldous has extensive, hands-on knowledge of and optimization software for thermal systems. His current building enclosures and the commissioning process. Her research focuses on approximation-assisted multi-objective, experience includes design, detailing, and installation of various high- multidisciplinary optimization and its application to design of performance enclosures, comprising curtain wall and window systems, air thermal systems and the continued development of heat exchanger and barriers, waterproofing of below-grade and plaza systems, low slope and vapor compression system simulation tools. steep roofs, and the interfaces of the various enclosure components. William P. Bahnfleth, Ph.D., P.E., Fellow/Presidential José Luís Coelho Alexandre, Ph.D., Member ASHRAE, is Member ASHRAE, is a professor and director of the Indoor an assistant professor at the Department of Mechanical Environment Center in the Department of Architectural Engineering at the University of Porto, Portugal. Dr. Alexandre Engineering at The Pennsylvania State University—University performs research in mechanical, environmental, and industrial Park, PA. He holds a doctorate in Mechanical Engineering engineering. His main area of scientific knowledge is thermal from the University of Illinois and is a registered professional performance and energy conservation in buildings and HVAC engineer. Dr. Bahnfleth has served ASHRAE in a variety of capacities, systems. His expertise includes building thermal simulation design tools including Student Branch Advisor, Chapter Governor, Technical Committee (including HVAC), commissioning, and energy facility management. Dr. and Standing Committee Chair, and as Director-at-Large, Vice President, Alexandre is also well versed in computational fluid dynamic (CFD) Treasurer, and 2013-14 Society President. applications in HVAC systems and energy management (as it applies to buildings and industry). Robert Bean, R.E.T., P.L. (Eng.), Member ASHRAE, is president of Indoor Climate Consulting Inc. and director of Peter Alspach, P.E., Member ASHRAE, LEED® AP, is an www.healthyheating.com. He is a past ASHRAE Distinguished associate principal with Arup, the mechanical discipline leader Lecturer and recipient of ASHRAE’s Lou Flagg Award. in Arup’s Seattle office, and Arup’s regional mechanical Currently, he serves on ASHRAE SSPC 55, TC 6.1, TC 6.5, engineering skills leader. He is a specialist in the design of and TC 7.4. He is also the SSPC 55 liaison to SSPC 62.2 and low-energy buildings, focusing on HVAC, energy systems, SSPC 90.2. He has developed and teaches numerous courses related to thermal comfort, and the indoor environment. As a mechanical the business and engineering of buildings, indoor climates, and radiant- engineer, building physicist, and façade engineer, Mr. Alspach develops based HVAC systems. holistic solutions to the built environment. Don Beaty, P.E., Fellow ASHRAE, has over 30 years David Altenhofen, AIA, is the East Coast Director for The experience in consulting engineering and founded DLB Facade Group LLC, a consulting firm specializing in assisting Associates Consulting Engineers in 1980. He is a licensed owners, architects, and builders in the delivery of durable and professional engineer in over 40 states and has international high-performing building enclosures. His focus is the licenses as well. Mr. Beaty co-founded and was the first Chair application of practical field experience and building science of ASHRAE TC 9.9 and currently serves as its publications combined with multiple forms of digital modeling to ensure Chair. He is also a frequent keynote speaker on behalf of ASHRAE TC 9.9 that performance goals set during design are delivered in the constructed for the data center industry, having presented over 100 times and in more building. At The Façade Group Mr. Altenhofen has lead building enclosure than 37 countries on various data center topics. He has also served on commissioning efforts on three net zero projects and provided consulting ASHRAE Standards Committee 90.1 (energy), including as Vice Chair; services for many projects with an emphasis on energy savings. Standards Committee 127 (Method for Testing for Rating Computer and Data Processing Room Unitary Air-Conditioners) as secretary; and ASHRAE TC 7.6 (Systems Energy Utilization). Beaty is a major contributor to many data center books (including ten ASHRAE books).

Visit www.ashrae.org/education for more details and to register. 19 Seminars/Courses subject to change without notice. Hoy Bohanon, P.E., Member ASHRAE, BEAP, LEED® AP, is Drury Crawley, Ph.D., AIA, Fellow ASHRAE, BEMP, is a president of Hoy Bohanon Engineering PLLC. He has written Bentley Fellow and Director of Building Performance technical papers and articles on indoor air quality, operations, Research with Bentley Systems Inc., focusing on building and maintenance and is very active in ASHRAE. He is Chair of performance, BIM, zero-energy buildings, resilience, ASHRAE SSPC 62.1, past Chair of the Building Energy sustainability, and smart cities. With more than 40 years of Quotient Committee, and a member of the Environmental experience in energy efficiency, renewable energy, and Health Committee. He is a member of ISO-TC 205 and corresponding sustainability, Dr. Crawley has worked in engineering software development, member of TCs 5.5 and 9.10. He is an ASHRAE Distinguished Lecturer, government research. and standards development organizations, as well as writes and teaches courses for the ASHRAE Learning Institute, and is a building design and energy consulting companies. He is also active in recipient of the ASHRAE Distinguished Service Award. IBPSA.

Donald Brandt, CEM, Life Member ASHRAE, BEAP, has Joseph Deringer, AIA, Life Member ASHRAE, LEED® AP, devoted his career to the HVAC industry. During his is executive director of the Institute for the Sustainable decades-long tenure with the Trane Company, he has been Performance of Buildings (SuPerB). Mr. Deringer has over active in ASHRAE, serving at the Chapter, Regional and 35 years’ experience in the design, analysis, and simulation Society Levels, including DRC for Region X from 2002–2005, of sustainable, energy-efficient buildings worldwide. His work Standards Committee from 2005–2009, and Nominating has focused especially on energy codes, design assistance, Committee from 2010–2016. He received the ASHRAE Distinguished training, and the development of interactive online design and training Service Award in 2005 and the Exceptional Service Award in 2015. He tools. He has over 20 years’ involvement in developing energy codes for serves as an ASHRAE Director-at-Large. buildings, and has helped seven countries develop first-generation energy codes. Mr. Deringer has served on ASHRAE’s Standard 90.1 committee for Richard Casault, P.E., Member ASHRAE, is the president of 15 years and chaired its envelope subcommittee for 10 years. He is also Seattle-based Casault Engineering, founded in 1994. He active as international energy and environmental consultant to the World provides new building commissioning services from planning Bank, UNDP, and USAID, consulting on projects in over a dozen countries through occupancy, retrocommissioning services for existing in Southeast Asia, the Caribbean, Latin America, the Middle East, and systems, and building commissioning master planning. He has Eastern Europe. commissioned hospitals, offices, greenhouses, libraries, corrections facilities, performing arts centers, teaching and research lab James Dirkes II, Member ASHRAE, BEMP, BCxP, LEED® facilities, boiler plants, and schools. AP, is the president and founder of The Building Performance Team. While HVAC systems have been his principal focus, Walid Chakroun, Ph.D., P.E., Fellow ASHRAE, is a professor Dirkes also has extensive experience designing, programming, in the Mechanical Engineering Department at Kuwait and troubleshooting many mechanical systems. He has University. His interests include experimental and numerical conducted energy analysis for numerous new and existing thermal and fluid sciences in general and in air-conditioning facilities using EnergyPlus, Retroficiency, EZ Sim, and bin method tools. systems and indoor air quality in particular. He served Dirkes has authored several energy analysis tools including ASEAM-UM previously as Director for the Region At Large for ASHRAE, and a spreadsheet-based HVAC front end for EnergyPlus. and he is currently serving as Vice President for the ASHRAE Publishing and Education Council and a liaison coordinator between ASHRAE and E. Curtis Eichelberger, P.E., Member ASHRAE, LEED® UNEP. Dr. Chakroun has authored and co-authored more than 75 journal Green Associate, is a senior staff engineer with Johnson articles and conference papers. He also co-authored a book, An Controls in York, PA. He has over 45 years of experience in Experimental Course in Thermal Engineering. He is the recipient of the engineering projects relating to acoustic and vibration prestigious ASHRAE John F. James Award and Distinguished Service technologies. Currently, he is responsible for the sound quality awards. and application of YORK/Johnson Controls brand HVAC equipment and systems. He is a member of the Institute of Noise Control Brad Cochran, P.E., Member ASHRAE, has over 25 years of Engineering and a member of ASME. experience conducting wind-tunnel, analytical, and computational fluid dynamic (CFD) modeling studies of airflow Charles Eley, P.E., AIA, CEM, Member ASHRAE, BEMP, in and around man-made structures. In recent years, Cochran LEED® AP, is an architect, mechanical engineer, and author has led the development of new design and control techniques with 40 years’ experience in energy-efficient and sustainable to minimize the energy consumption for laboratory exhaust design. During his career, Eley has made significant stacks through the implementation of variable-air-volume (VAV) contributions to the California energy standards, ASHRAE/ technologies. He has successfully designed and employed VAV exhaust IES Standard 90.1, and energy codes in Hong Kong, Hawaii, systems for more than 100 laboratories throughout the United States, Guam, American Samoa, and Australia. He has also developed a number of Canada, and the United Kingdom. He holds a B.S. and M.S. in mechanical important technical manuals and publications, served as the founding engineering, an M.B.A., and a P.E. license (CO). Cochran is the author of the executive director of the Collaborative for High Performance Schools, chapter on exhaust stack design in the ASHRAE Laboratory Design Guide. developed a number of energy analysis software applications, and served He serves on the ASSE Z9.5 standards committee and is Chair of as energy consultant for a number of landmark green buildings. ASHRAE’s TC9.10, Laboratory Systems.

20 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. David Eldridge, P.E., Member ASHRAE, BEMP, BEAP, Jack Glass, P.E., Member ASHRAE, was the director of HBDP, LEED® AP BD+C, is a project manager at Grumman/ Global Data Center Planning with Citigroup in New York City. Butkus Associates in Chicago. His specialty is sustainable He has over 20 years experience in the planning and consulting services including analysis of energy efficient MEP operation of technology environments supporting the financial design, energy modeling, performance of energy audits of all industry. He is a professional engineer and a long-time levels, LEED® and Green Globes consulting services, and tax member of ASHRAE. He is the past Chair of TC 9.9, deductions for energy-efficient commercial property. Mr. Eldridge has contributed to the publication of several books in the ASHRAE Datacom served on the IBPSA-USA Board of Directors since 2008, has been a series, and led the development of the book Green Tips for Data Centers. research assistant at Oklahoma State University (1999–2001), and has He currently serves on the ASHRAE Publications Committee. served in the BLAST support office at the University of Illinois (1998– 1999). He is a voting member on several ASHRAE committees: TC 7.6, TC Walter Grondzik, P.E., Fellow/Life Member ASHRAE, 9.6, Certification Committee, and SPC 211, developing a new standard for LEED® AP, is an architectural engineer and a professor of energy audits. architecture at Ball State University. He is author of Principles of Building Commissioning and co-author of Mechanical and Jay Enck, Member ASHRAE, HBDP, CPMP, BEAP, LEED® Electrical Equipment for Buildings (12th Ed.) and The Green AP, is co-founder and chief technical officer of Commissioning Studio Handbook (2nd Ed.). His interests include building commissioning, and Green Building Solutions, Inc. He has conducted sustainability and high-performance building initiatives, and all areas of commissioning for more than $4 billion in construction environmental control systems and their effects on buildings and projects, of which 80% have included building enclosure occupants. commissioning. Enck has 40 years of experience in building operation, design, and construction, and over 20 years investigating the Charles Gulledge, III, P.E., Member ASHRAE, HBPD, causes of building enclosure problems. He holds the certifications of LEED® AP, is a senior mechanical engineer with LEED® Fellow, CxAP, HBDP, CPMP, BEAP, and LEED® AP BD+C. Environmental Air Systems LLC in High Point, North Carolina. A licensed professional engineer, he has over 20 years David Fisher, Member ASHRAE, is president of PolarSoft experience in the HVAC industry. Currently, he is a member of Inc., a Pittsburgh-based company specializing in BACnet the ASHRAE Handbook Committee and Building Information software development, consulting, and training. He was a Modeling and Interoperability Ad Hoc Committee, and liaison to the charter voting member of ASHRAE’s SPC135P and has been Construction Specifications Institute (CSI). Mr. Gulledge has received the very active in the development of ANSI/ASHRAE Standard Chapter Service Award, Regional Award of Merit, Distinguished Service 135-2012, BACnet –A Data Communication Protocol for Award, and Dan Mills Technical Award. Building Automation and Control Networks since its inception. He remains very involved with the SSPC-135 standing committee as a participant and Arthur D. Hallstrom, P.E., Fellow/Life Member ASHRAE, a principal author. BEMP, has over 35 years of extensive applications and equipment experience in air-side systems, equipment, and Anthony Floyd, Member ASHRAE, BEAP, LEED® AP, Fellow computer modeling with a major HVAC manufacturer. He AIA, is a licensed architect and certified sustainability became an ASHRAE Fellow for his work in innovative professional. Since 1997, he has served as the Green Building acoustical modeling software. Mr. Hallstrom was one of the DOAS systems Program Manager for the City of Scottsdale and is a former consultant on the ASHRAE Headquarters redesign project. Since retiring, Scottsdale building official (1988–1995). He helped to he has become executive director and president of AD Hall and focuses on establish Arizona’s first Green Building Program. Floyd is teaching building energy codes. responsible for education, outreach, project qualification, and maintaining Scottsdale’s regionally based green and energy-efficiency criteria. He was Lew Harriman, Fellow ASHRAE, is the emeritus director of instrumental in Scottsdale’s adoption of the International Green research and consulting at Mason-Grant in Portsmouth, NH. Construction Code (IgCC), International Energy Conservation Code (IECC), He has over 43 years of experience with humidity control and and LEED® Gold city facility policy. Floyd currently serves on the ASHRAE moisture management in a broad variety of commercial, 189.1 project committee and the ICC Sustainability, Energy & High industrial, and institutional applications. Lew was the lead Performance Code Action Committee (SEHPCAC). author of both ASHRAE’s Humidity Control Design Guide and the ASHRAE Guide for Buildings in Hot and Humid Climates. He has Laurie Gilmer, P.E., Member ASHRAE, LEED® AP, is a vice served as Chair of ASHRAE Technical Committee 1.12 (Moisture president at Facility Engineering Associates (FEA) and leads Management in Buildings) and as Chair of the ASHRAE Task Group for FEA’s facility asset management, building energy developing a quantitative definition of a damp building (one which is damp management, and sustainability services. She has assisted enough to pose a health risk). He acted as the lead reviser for Chapter 64 facility managers in improving building systems operations, (Moisture and Mold) of the 2019 ASHRAE Handbook—HVAC Applications. creating and implementing energy management plans, identifying energy saving opportunities, and obtaining LEED® certification Charlie Henck, P.E., CEM, Fellow/Life Member ASHRAE, for existing buildings. Her experience includes sustainability/LEED®, LEED® AP, both designed and renovated healthcare systems, systems analysis, energy audits, commissioning, building systems planning, office buildings, laboratories, data centers, and more. Henck and controls review. has served on many ASHRAE committees and acted as past DRC for Region III. He is the current chair of the PDC and secretary for TC 9.1, Large Building Air-Conditioning Systems. Henck wrote, edited, and revised portions of ASHRAE Laboratory Design Guide, Second Edition, with a focus on air treatment, particularly the requirements for allowable concentration limits and the technologies available to achieve acceptable levels. Henck is also actively involved in revising portions of ASHRAE Handbook—HVAC Systems and Equipment.

Visit www.ashrae.org/education for more details and to register. 21 Seminars/Courses subject to change without notice. Lucas B. Hyman, P.E., Member ASHRAE, LEED® AP, has Erik Kolderup, P.E., Member ASHRAE, BEMP, LEED® AP, planned and designed central heating and cooling plants, TES has provided energy consulting services since 1990, serving systems, cogeneration plants, steam plant systems, utility as Vice President of Eley Associates and Associate Principal distribution systems, laboratory systems, HVAC improvements, at Architectural Energy Corporation in San Francisco, before energy conservation measures, landfill gas collection systems, starting Kolderup Consulting in 2007. He has trained design fuel storage and distribution systems, as well as other professionals through organizations such as the Collaborative mechanical system. His engineering experience includes developing for High Performance Schools, PG&E, and the State of Hawaii, and has studies, master plans, construction documents (designs), performing taught hundreds of engineers and architects in the use of VisualDOE. construction management, and acting as commissioning agent. He has also He is a lecturer at Stanford University where he teaches a course on participated as the mechanical engineer member in value engineering energy-efficient building systems. project reviews and conducted and led forensic engineering studies. Dennis Knight, P.E., Fellow ASHRAE, has over 43 years of Steve Kavanaugh, Ph.D., Fellow ASHRAE, is professor experience providing engineering-, design-, and construction- emeritus of mechanical engineering at the University of related services within the building industry. Active at the local, Alabama-Tuscaloosa. He is a past Chair of ASHRAE TC 6.8 state, and national levels with various agencies and and past Chair of Applied Heat Pumps and Heat Recovery. He professional societies, he works to help develop sustainable, is also a Fellow of ASME. Dr. Kavanaugh is the author of integrated building design guidelines. Nationally, as a member several ASHRAE publications including Geothermal Heating of ASHRAE, Mr. Knight is the recent past Chair of the BIM Multi- and Cooling: Design of Ground-Source Heat Pump Systems, HVAC Disciplinary Task Group (MTG), is the former Chair of TC 7.1 on integrated Simplified, and Ground-Source Heat Pumps: Design of Geothermal building design, and served as the Chair of the ASHRAE Building Systems for Commercial and Institutional Buildings. Performance Analysis Specialty Conference for six of the past eight years it has been held. Julia Keen, Ph.D, P.E., Fellow ASHRAE, HBDP, BEAP, is a professor of Architectural Engineering and Construction Thomas (Tom) Lawrence, Ph.D., P.E., Fellow ASHRAE, Science at Kansas State University with a specialty in HVAC, LEED® AP, is a professor of practice and coordinator for the energy codes, and integrated building design. She has a mechanical engineering degree program at the University of doctorate in Curriculum and Instruction from Kansas State Georgia. He has over 35 years of professional engineering University, where she also received a Bachelor’s and Master’s experience. Among his many roles of service to ASHRAE, Dr. degrees in Architectural Engineering. She owns her own consulting Lawrence served as a Director-at-Large on the ASHRAE Board of engineering company, Keen Designs, PA. Dr. Keen is a licensed Directors from 2016-2019, as past chair of ASHRAE TC 2.8, and a professional engineer and an ASHRAE-certified High-Performance member of the committee that wrote ASHRAE Standard 189.1 on Building Design Professional (HBDP) and Building Energy Assessment high-performance green buildings. As an ASHRAE Distinguished Lecturer, Professional (BEAP). She currently serves as an ASHRAE Vice President he gives presentations and workshops on high-performance and smart and Vice Chair of Publication and Education Council. buildings around the world. Dr. Lawrence was also the chair of the editorial committee that produced ASHRAE GreenGuide, 5th Ed and is the primary Jim Kelsey, P.E., Member ASHRAE, BEAP, LEED® AP, is the author of the new ASHRAE book titled High-Performance Buildings founder and President of kW Engineering. He chairs the Simplified. committee for ASHRAE Standard 211 and is a committee member of ASHRAE Standard 100. Mr. Kelsey led the Thomas J. Leck, Ph.D., Member ASHRAE, has a consulting development of TC 4.7’s revision of the ASHRAE publication practice that deals primarily with policy and regulatory affairs Procedures for Commercial Building Energy Audits. He serves impacting the use of refrigerant gases. He also advises on legal on the Board of the California Energy Efficiency Industry Council where he and safety-related matters relating to refrigerant gas usage. His works with industry, utilities, and state regulators to develop energy- familiarity with industry trends and business direction has been efficiency policies that meet environmental and business goals. developed over the past 28 years of working directly with the global cooling industry. During his 36 years with the DuPont and Chemours Rob Kistler, AIA, Member ASHRAE, is a principal of The companies he worked to develop, characterize, and teach customers about Facade Group LLC, which focuses on design and new refrigerants. Dr. Leck has been a teacher, developing training materials documentation solutions in all aspects of the building and teaching customers, industry groups, and academic groups about new enclosure, from subgrade to facade to roof. Mr. Kistler has refrigerant technologies and regulations. He is the past Chairman and over 25 years of experience as an architect and consultant currently a member of ASHRAE’s TC 3.2, Refrigerant System Chemistry, and and over 15 years as a contractor. He established the Portland ASHRAE Standard 34, Designation and Classification of Refrigerants. He is a chapter of the Building Enclosure Council and was Chair from 2006–2010. contributor to other ASHRAE technical committees, including TC 3.1, He was also co-chair of the Building Enclosure Council National from Refrigerants and Brines; TC 3.4, Refrigeration System Lubricants; and TC 2007–2011 and served as Chair of the Building Enclosure Technology and 3.3, Contaminant Control in Refrigeration Systems. He is a contributor to Environmental Council. other ASHRAE technical committees, including Refrigerants, Refrigeration Lubricants, and Refrigerant Contaminant Control. Daniel Koenigshofer, P.E., Member ASHRAE, MSPH, HFDP, is the vice president for Health Care at Dewberry Engineers Inc. He has over 40 years of engineering and project management experience, specializing in master planning, troubleshooting, and solving engineering problems in healthcare facilities. Koenigshofer has presented numerous training sessions on health-care design, both nationally and internationally. He has taught classes for the ASHRAE Learning Institute in over 25 major cities worldwide, using entertaining stories of “mistakes he has made” in engineering.

22 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. Ken Loudermilk, P.E, Member ASHRAE, is a senior chief Dermot McMorrow, P.Eng., C.Eng., Member ASHRAE, engineer at Titus Products with over three decades of Member CIBSE, is the National Engineered Systems experience in engineering, sales, and marketing management Manager of VRF & ERV Technologies with Mitsubishi and an extensive knowledge of building systems. His specialties Electric Sales Canada. He has over 20 years of experience in include underfloor air distribution and chilled beam, both building services engineering including HVAC system design, technologies that Loudermilk helped advance from their HVAC product application and development, project and beginnings. In addition to roles in research and design and as a product program management, and engineering education. Mr. McMorrow is a manager, he has worked closely with design professionals in the planning of co-author of Chapter 18, “Variable Refrigerant Flow,” in the 2012 ASHRAE chilled-beam systems for office buildings, educational facilities, and Handbook—HVAC Systems and Equipment and co-author of CSA B52 laboratory applications. He is a member of several ASHRAE committees, the Code Document 2013 + Safety Bulletin. He is also the Vice Chair of author of numerous ASHRAE Journal articles, and has lectured all over the ASHRAE TC 8.7 and a member of CSA B52 TC. world. Frank Mills, C.Eng., Member ASHRAE, is in design, Jocelyn Léger, P.Eng., CEM, Member ASHRAE, LEED® AP, is management, supervision, construction, and operation of a commercial sales manager in the HVAC Division at Mitsubishi building services engineering projects, including education, Electric Sales Canada Inc. He has over 7 years of experience in healthcare/hospitals, research, industrial, process, commercial, the mechanical contracting side and 17 years as an equipment retail, computer/data suites, and shopping centers, including specialist on the HVAC design and manufacturing side. Having town centers and residential (housing, hotels, and apartment a certified energy manager (CEM) and LEED® AP titles, he is buildings). He has also worked closely with the Building Research very interested in and passionate about VRF, efficient HVAC designs and Establishment in the UK and with ASHRAE TC 2.8 to develop new equipment, green and net zero energy buildings, sustainable development, environmental design and rating systems to aid developers and their and energy modeling. designers toward low carbon and environmentally friendly developments.

Dunstan Macauley, P.E., Member ASHRAE, HBDP, LEED® Mark Nunnelly, P.E., Member ASHRAE, CxA, LEED® AP, has AP, has nearly 16 years of experience in the HVAC industry been involved in the construction, engineering, and HVAC specializing in the design of a variety of systems for commercial industry since 1982. Since 2000 his professional interests in and institutional projects. He joined Encon Group in 2008 as an projects have primarily pertained to commissioning, associate director and currently serves as the mechanical retrocommissioning, humidity control consulting, and energy department manager. Mr. Macauley is actively involved in project management for commercial, institutional, and industrial management and design, including several projects for the pharmaceutical buildings. He has presented numerous training seminars on commissioning, and biotechnology, telecommunications, and broadcast communication dehumidification technologies (desiccant and mechanical-based), and their industries. He is ASHRAE Region III Director and Regional Chair for the applications, as well as psychrometrics and designing for proper humidity 2018-2019 term. control. Nunnelly is also recognized as one of ASHRAE’s Distinguished Lecturers and has conducted training seminars both domestically and Annie Marston, Ph.D., Member ASHRAE, BEMP, LEED® AP, internationally. is head of the Building Performance Group at Ebert & Baumann Consulting Engineers. She is an expert in energy Michael Patton, Member ASHRAE, is currently the executive modeling and related simulation applications, such as CFD vice president for Griswold Water Systems. For more than 20 modeling and daylight modeling. Her energy modeling years Patton has been a technical sales leader in the experience includes simulating single buildings for LEED®, conducting environmental, energy, and water industry. He has more than 35 parametric studies for conceptual design work, choosing energy-efficient years of mechanical engineering experience, including stints with solutions for high-profile projects, and modeling scenarios to reduce the mechanical contractors and with a manufacturers’ representative. An ASHRAE energy consumption of entire cities and counties by 30%–50%. Dr. Member, Patton is active on ASHRAE SPC 188 on Legionellosis and Marston is proficient in many modeling and simulation programs and ASHRAE Standard 191P. related applications, such as EnergyPlus, DesignBuilder, Google SketchUp, IES, Ecotect, Radiance, Star CCM+, and FLUENT. Richard (Dick) Pearson, P.E., Fellow/Life Member ASHRAE, is a regular presenter at professional development courses at the Sam Mason, P.E., Member ASHRAE, BEMP, LEED® AP, University of Wisconsin and elsewhere on subjects related to BD+C, is the principal at Encompass Energy LLC. He energy audits, HVAC design, energy management, system provides energy analysis, code assessment, and design analysis, and renovation of buildings. He holds multiple ASHRAE assistance services for developers, contractors, architects, and Technology awards and the University of Wisconsin-Madison Department of engineering firms across North America, Europe, and the Engineering Distinguished Service Citation. He has been awarded the Middle East. He has over ten years of experience in the membership grade of Fellow for his pioneering work with building automation design and construction industry, with a focus on pragmatic approaches to systems and has received the Distinguished Service Award from ASHRAE. He energy efficiency and sustainability. His expertise includes detailed HVAC has been Chairman of the Energy Management Committee and has served on design and he is an expert in whole-building energy simulation and the Board of Directors, as well as serving on the Finance, Professional optimization. Development, TC 7.6, and Environmental Health committees, and the Technology Council.

Visit www.ashrae.org/education for more details and to register. 23 Seminars/Courses subject to change without notice. William (Bill) Pearson, Member ASHRAE, CWT, is President/ Jeff Ross-Bain, P.E., Member ASHRAE, BEMP, LEED® AP, Owner of BPearson Consulting LLC in Wilmington, NC and is the founder and Principal of Ross-Bain Green Building, LLC, Principal Consultant at Arthur Freedom Associates, Inc. He has a green building consultancy providing comprehensive energy over 40 years of experience in the water treatment industry – and environmental expertise to building owners, architects, specializing in Legionella risk management. Bill has been active in engineers, and contractors. Services include energy many career-related, technical and professional associations. He has chaired/ simulation, energy auditing, commissioning, LEED® administration and vice-chaired several Legionella-related task force, guideline and standard consulting, and facility maintenance management. Mr. Ross-Bain has committees at AWT, CTI and ASHRAE. He is the current (2019) Vice-Chair of worked exclusively in the field of green building for the past 12 years and the ASHRAE SSPC 188 committee and Chair of the CTI Legionellosis has had direct project administration roles on over 60 LEED® registered or Guideline 159 committee. certified projects. He has led green building project teams and performed the energy simulations for LEED® Certified, Silver, Gold, and Platinum Paul Pieper, Eng., Member ASHRAE, is the director of Applied buildings. Products at The Master Group. Pieper has spent a large portion of his career working with manufacturers of HVAC equipment Hesham Safwat, Ph.D., Member ASHRAE, has years of and products and has held roles in applications, engineering, experience in the industry and in applied engineering science. marketing, product management, and product development. His expertise includes sustainability practices and green Throughout his career, Pieper has been deeply involved with buildings, especially with geothermal ground-source heat air-to-air energy recovery technologies. Pieper has contributed to the pumps and energy and atmosphere concerns for LEED® for ASHRAE Handbooks and is currently active on SPC 84 and as an instructor Middle Eastern commercial projects. Previous to joining the British for ALI, developing two short courses relating to air-to-air energy recovery. University in Egypt in 2014 as lecturer in the Department of Mechanical Engineering, Dr. Hesham served as both instructor and a technical Joel Primeau, Eng., Member ASHRAE, HBDP, LEED® AP, is manager for Miraco Carrier where he was responsible for chillers, air a consulting engineer with over 30 years of HVAC experience. handing units, fan coil selection, and pricing. He has extensive knowledge He has led and assisted teams of engineers and technicians in HVAC design and energy modeling, HAP LEED® courses, high- in the design and construction of high-performance, performance building, ASHRAE Standard 62.1, and ASHRAE/IES sustainable facilities. Primeau’s experience spans a wide range Standard 90.1. of engineering design and construction projects. His expertise is in the design of high-efficiency HVAC systems that enhance indoor air quality Larry Schoen, P.E., Fellow ASHRAE, is principal engineer for and comfort. Primeau frequently trains engineers, architects, and facility Schoen Engineering Inc., which does analysis and design of managers on the design process, central heating and chilling plant mechanical and electrical systems with a focus on energy optimization, high-performance HVAC systems, and heat recovery efficiency and quality of the indoor environment. Previously, Mr. applications. Schoen was engineering manager for property operations at The Rouse Company, with a portfolio of 50 million ft2 of retail, office, hotel, Reinhard Radermacher, Ph.D., P.E., Fellow ASHRAE, is an and mixed-use facilities and every kind of HVAC, plumbing, electrical, and internationally recognized expert in heat transfer and working elevator system. He currently serves as Vice Chair of SSPC 55. fluids for energy conversion systems—heat pumps, air conditioners, refrigeration systems, and integrated cooling and Roger Schmidt, Ph.D., P.E., Member ASHRAE, IBM Fellow, heating and power systems. He introduced ternary working National Academy of Engineering Member, IBM Academy of fluid mixtures for absorption heat pumps technology. His Technology Member, ASME Fellow, has over 35 years contributions to the use of working fluid mixtures in vapor compression experience in engineering and engineering management in systems resulted in advanced cycles with new degrees of freedom for the thermal design of IBM’s large scale computers. He was special applications. His work led to an energy savings of more than 50% IBM’s chief engineer on data center energy efficiency. He has led in domestic refrigerators. development teams in cooling mainframes, client/servers, parallel processors, and test equipment utilizing such cooling mediums as air, Lisa L. Rosenow, Member ASHRAE, LEED® AP, is a senior water, and refrigerants. energy program manager with the Northwest Energy Efficiency Council (NEEC). She manages the commercial Chandra Sekhar, Ph.D., Fellow ASHRAE, is currently a energy code technical support program for Washington State, professor and programme director (Building Performance and providing technical expertise for all disciplines covered in the Sustainability) and co-director (Centre for Integrated Building energy code. She assisted AIA Seattle, Architecture 2030, Energy and Sustainability in the Tropics) in the Department of and the Northwest Energy Efficiency Alliance to develop training content Building at the National University of Singapore (NUS). He is for the AIA+2030 Professional Series that focuses on the integrated also a founding director of Enhanced Air Quality Pte Ltd., a design approach, and codeveloped content for the integrated design NUS spin-off company. Sekhar is an ASHRAE Fellow and a Fellow of training program for the ASHRAE Learning Institute. Ms. Rosenow has a ISIAQ. He has been an ASHRAE Distinguished Lecturer since 2006. Dr. mechanical engineering degree from the University of Washington and a Sekhar is a past Chair of the Environmental Health Committee, was a sustainable building advisor certification (NaCSBA). member of the IEQ Global Alliance Ad Hoc Committee (2013-2016) and is currently a member of SSPC 62.1, TC 2.1, EHC, and TC 4.3. He has also Douglas Reindl, Ph.D., P.E., Fellow ASHRAE, is a registered served the ASHRAE Singapore Chapter in various capacities, including as professional engineer in the State of Wisconsin and a its President during 2010-2011 and as a BOG member. Dr. Sekhar is professor in the College of Engineering at the University of ASHRAE Director-at-Large for the 2018-2019 term. Wisconsin-Madison, with appointments in the Department of Engineering Professional Development (EPD) and Mechanical Engineering. Dr. Reindl has expertise in several areas related to industrial refrigeration systems including system safety, optimization, assessment of design alternatives, conceptual design, energy conservation measures, system modeling, and field evaluation.

24 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. Michael Sheerin, P.E., Member ASHRAE, LEED® AP, is a Steven T. Taylor, P.E., Fellow/Life Member ASHRAE, is the chief executive officer of TLC Engineering for Architecture. He founding principal of Taylor Engineering, Alameda, CA. He is a serves as the director of Healthcare Engineering for TLC, registered mechanical engineer specializing in HVAC system leading their design, planning, and marketing efforts. He has design, control system design, indoor air quality engineering, focused solely on healthcare facility design since joining TLC computerized building energy analysis, and HVAC system in 1995. Sheerin is a mechanical engineer licensed in multiple commissioning. Taylor has over 40 years of commercial HVAC states and currently serves as Chairman of TC 9.6. He is the Vice Chairman system design and construction experience. He was one of the primary of ASHRAE SSPC 170 and has been involved in this standard since its authors of the HVAC sections of ASHRAE/IES Standard 90.1 and inception. He also serves as Chair of ASHRAE SPC 189.3. California’s Title 24 energy standards and ventilation standards. Other ASHRAE projects and technical committees Taylor has participated in Peter Simmonds, Ph.D., Fellow ASHRAE, is managing include ASHRAE Standard 62.1, ASHRAE Standard 55, Guideline 13, director/principal of Building and Systems Analytics LLC. Dr. Guideline 16, Guideline 36, TC 1.4, and TC 4.3. He is past vice-chair of Simmonds has been involved in the design and operation of USGBC LEED Indoor Environmental Quality Technical Advisory Group, a tall, supertall, and megatall buildings around the world for more member of the CSU Mechanical Review Board, and an 18-year member of than 30 years. An ASHRAE member since 1989, Dr. the IAPMO Mechanical Technical Committee administering the Uniform Simmonds has twice chaired TC 9.12 and is a member of TC Mechanical Code. 2.1. TC 6.5, and TC 7.5. He is a consultant for both the Standard 55 and Standard 62.1 groups and is a past President of the College of Fellows. Dr. Samir Traboulsi, Ph.D., P.Eng., Fellow/Life ASHRAE, BEAP, Simmonds is a recognized authority in the field of radiant heating and is currently a senior lecturer at the American University of cooling systems, low energy buildings and systems, and occupant comfort. Beirut and has taught a variety of subjects including building The main goals of his research and applications have been to understand services technical courses, MEP design of green buildings, the heat transfer and performance of radiant systems and occupant HVAC design courses, thermodynamics, operations research, comfort for both heating and cooling. His studies on the thermal the engineering economy, and engineering ethics. Dr. Traboulsi performance of radiant systems led to a unique way to enhance these is the founder and was the president of the Lebanese chapter of ASHRAE, systems. He is the author of the ASHRAE Design Guide for Tall, Supertall as well as a former Director-at-Large for ASHRAE. He also served as and Megatall Building Systems and a co-author of the ASHRAE/REHVA co-founder and former president of the Lebanon Green Building Council. Active and Passive Beam Application Design Guide. Dr. Traboulsi is the author of numerous publications and is the recipient of both the ASHRAE Distinguished Service Award and the ASHRAE Mark Stetz, P.E., Member ASHRAE, BEAP, is principal and Exceptional Service Award. co-owner of Stetz Consulting LLC. His company provides energy-efficiency consulting services, energy audits, Rafael Úrculo, Member ASHRAE, has assumed the measurement and verification, economic analysis, and training. presidency of the Spanish Association of Engineering and With over 20 years in the energy efficiency field, he has Installation Consulting Engineers (AEDICI), fostering contributed to the IPMVP and FEMP measurement and collaboration with other associations in the field. A consultant verification protocols, supported the DOE FEMP performance contracting with a Master of Science from the University of Connecticut, program, provided input into LEED® 2012, and conducted training Úrculo has worked in building services and as an associate workshops worldwide. professor at the School of Architecture at the Polytechnic University of Madrid. In addition to being a member of ASHRAE, Úrculo is also a Harshal Surange, Member ASHRAE, is Director and CEO at member of IES and the CIBSE. ACR Project Consultants in Pune, India. Surange has nearly 20 years of industry experience and has designed and John Varley, P.E., Member ASHRAE, HBDP, LEED® AP, has consulted on over 200 cold chain projects for logistics been a professional in the building sciences industry for over providers and governments. His work includes integrated cold 30 years. He has extensive design experience in a variety of chain projects with refrigerated containers, multipurpose cold laboratory types, including wet chemistry, biomedical, stores, frozen stores, CA stores, and ripening units. Surange serves as a microbiological, animal, and academic laboratories. Mr. Varley recognized resource person for the National Horticulture Board (NHB) for is a past Chair of ASHRAE TC 9.10 and TC 9.11. His work the Government of India and is an NHB-certified engineer and trainer. and ideas on laboratory design and industrial ventilation have been Surange is the founder and President of the International Institute of published in the ASHRAE Journal, ASHRAE Transactions, and STBE. Ammonia Refrigeration (IIAR) Western India Chapter and the National Chair for the Refrigeration Committee of the Indian Society of Heating, Alan (Al) Veeck, Life Member ASHRAE, worked in the air Refrigerating and Air Conditioning Engineers (ISHRAE). He works as an filtration industry at Tidewater Air Filter as Vice President of instructor for ASHRAE’s Global Training Center for Building Excellence in Sales and opened and managed the Bio-Tec division of Dubai and participates in joint activities for ASHRAE and the United Tidewater. He then advanced to General Manager of Airpure Nations Environment Program (UNEP) to promote sound management of in 1999. In the same year, Veeck was elected President of the refrigerants and to talk on energy efficiency in air conditioning and National Air Filtration Association (NAFA). He also served on refrigeration. the committee that wrote NAFA’s first and second books on air filtration, NAFA Guide to Air Filtration and Installation, Operation and Maintenance of Air Filtration Systems. Veeck later became NAFA’s executive director and is the recipient of the NAFA Distinguished Service Award. Veeck has headed ASHRAE’s Technical Committee (TC) 2.4 on air filtration and received the ASHRAE Distinguished Lecturer and ASHRAE Distinguished Service awards. He is a certified instructor for Dale Carnegie Training™ and is certified by NAFA as an Air Filter Specialist and Certified Technician Level II.

Visit www.ashrae.org/education for more details and to register. 25 Seminars/Courses subject to change without notice. Mack Wallace, P.E., Member ASHRAE, LEED® AP, has been a mechanical contractor, consulting engineer, and a registered engineer in Texas for over 30 years. Mr. Wallace is heavily involved on the front lines of the energy conservation industry, having served the past 19 years on the ASHRAE/IES Standard 90.1 Committee. Mr. Wallace was the engineer of record for many award-winning projects, including the Historic Preservation of the Texas State Capitol Building. He was also was director of design/ build services for TXU Energy and responsible for developing and guaranteeing the savings on many energy savings projects. Mr. Wallace has trained thousands of engineers and architects worldwide on ASHRAE/IES Standard 90.1, and he is the co-author of Significant Changes to International Energy Conservation Code and ANSI/ASHRAE/IES Standard 90.1.

Dennis Wessel, P.E., Fellow/Life Member ASHRAE, LEED® AP, retired as a senior vice president and director of marketing with Karpinski Engineering and has more than 45 years of engineering experience. Wessel was an ASHRAE Director-at- Large (2012–2015) and past Chair of the Planning Committee, the Conferences and Expositions Committee, and Handbook Committee. He is currently a member of the ASHRAE Foundation, Development Committee, and the Technical Activities Committee, and is a TC Section Head.

Hassan Younes, Member ASHRAE, BEAP, BEMP, HBDP, CPMP, HFDP, OPMP, is a technical director and partner at Griffin Consultants. He has extensive experience in the fields of design, sustainability, commissioning, project execution and management, energy efficiency, and value engineering. He holds all ASHRAE certifications and is a certified energy manager, a certified measurement and verification professional, and a LEED®-accredited professional. Younes is a Grassroots Government Advocacy Committee (GGAC) member in the ASHRAE Region-at-Large, as well as a GGAC Chair in the UAE local chapter. Younes was awarded the Middle East Energy Professional of the Year award in 2015 by AEE, Middle East Young Engineer of the Year 2010, and was part of the Griffin Consultant’s team awarded the Energy Consultant of the Year 2s017 award by Retrofit Tech and the Middle East Boutique Consultancy of the Year 2014 award.

26 Visit www.ashrae.org/education for more details and to register. Seminars/Courses subject to change without notice. 1791 Tullie Circle NE Atlanta, GA 30329 www.ashrae.org